{"id":93155,"date":"2024-11-25T02:44:23","date_gmt":"2024-11-25T02:44:23","guid":{"rendered":"https:\/\/www.dumpsbase.com\/freedumps\/?p=93155"},"modified":"2024-11-25T02:44:23","modified_gmt":"2024-11-25T02:44:23","slug":"real-c1000-112-dumps-v8-02-latest-exam-questions-verified-by-experts-for-fundamentals-of-quantum-computation-using-qiskit-v0-2x-developer-exam","status":"publish","type":"post","link":"https:\/\/www.dumpsbase.com\/freedumps\/real-c1000-112-dumps-v8-02-latest-exam-questions-verified-by-experts-for-fundamentals-of-quantum-computation-using-qiskit-v0-2x-developer-exam.html","title":{"rendered":"Real C1000-112 Dumps (V8.02) &#8211; Latest Exam Questions Verified By Experts for Fundamentals of Quantum Computation Using Qiskit v0.2X Developer Exam"},"content":{"rendered":"<p>The Fundamentals of Quantum Computation Using Qiskit v0.2X Developer C1000-112 exam is a great test for IBM Certified Associate Developer &#8211; Quantum Computation using Qiskit v0.2X certification. It will offer opportunities to deepen your expertise in quantum computing with Qiskit. When preparing for your IBM C1000-112 exam, the best way to get familiar with the latest topics is by choosing real C1000-112 dumps (V8.02) of DumpsBase. These dumps have been reviewed and curated by experienced experts to ensure you receive the most accurate and up-to-date content. We believe that to effectively prepare for the IBM C1000-112 exam, you need the most up-to-date materials available. Real IBM C1000-112 dumps from DumpsBase are the ideal choice, featuring real questions and detailed analysis of the Fundamentals of Quantum Computation Using Qiskit v0.2X Developer exam. IBM C1000-112 exam dumps (V8.02) help you clear up any doubts you may have and ensure you are fully prepared.<\/p>\n<h2><em><span style=\"background-color: #00ffff;\">IBM C1000-112 free dumps<\/span><\/em>, helping you check the quality of the real C1000-112 dumps (V8.02):<\/h2>\n<script>\n\t  window.fbAsyncInit = function() {\n\t    FB.init({\n\t      appId            : '622169541470367',\n\t      autoLogAppEvents : true,\n\t      xfbml            : true,\n\t      version          : 'v3.1'\n\t    });\n\t  };\n\t\n\t  (function(d, s, id){\n\t     var js, fjs = d.getElementsByTagName(s)[0];\n\t     if (d.getElementById(id)) {return;}\n\t     js = d.createElement(s); js.id = id;\n\t     js.src = \"https:\/\/connect.facebook.net\/en_US\/sdk.js\";\n\t     fjs.parentNode.insertBefore(js, fjs);\n\t   }(document, 'script', 'facebook-jssdk'));\n\t<\/script><script type=\"text\/javascript\" >\ndocument.addEventListener(\"DOMContentLoaded\", function(event) { \nif(!window.jQuery) alert(\"The important jQuery library is not properly loaded in your site. Your WordPress theme is probably missing the essential wp_head() call. You can switch to another theme and you will see that the plugin works fine and this notice disappears. If you are still not sure what to do you can contact us for help.\");\n});\n<\/script>  \n  \n<div  id=\"watupro_quiz\" class=\"quiz-area single-page-quiz\">\n<p id=\"submittingExam8715\" style=\"display:none;text-align:center;\"><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/plugins\/watupro\/img\/loading.gif\" width=\"16\" height=\"16\"><\/p>\n\n<div class=\"watupro-exam-description\" id=\"description-quiz-8715\"><\/div>\n\n<form action=\"\" method=\"post\" class=\"quiz-form\" id=\"quiz-8715\"  enctype=\"multipart\/form-data\" >\n<div class='watu-question ' id='question-1' style=';'><div id='questionWrap-1'  class='   watupro-question-id-338525'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>1. <\/span>Which of the below statements plots how the qubits are connected in the ibmq_santiago system? <br \/>\r<br>A) <br \/>\r<br><br><img decoding=\"async\" width=308 height=40 id=\"\u56fe\u7247 138\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image001-17.jpg\"><br><br \/>\r<br>B) <br \/>\r<br><br><img decoding=\"async\" width=300 height=40 id=\"\u56fe\u7247 137\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image002-18.jpg\"><br><br \/>\r<br>C) <br \/>\r<br><br><img decoding=\"async\" width=301 height=40 id=\"\u56fe\u7247 136\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image003-17.jpg\"><br><br \/>\r<br>D) <br \/>\r<br><br><img decoding=\"async\" width=308 height=39 id=\"\u56fe\u7247 135\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image004-15.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_1' value='338525' \/><input type='hidden' id='answerType338525' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338525[]' id='answer-id-1324180' class='answer   answerof-338525 ' value='1324180'   \/><label for='answer-id-1324180' id='answer-label-1324180' class=' answer'><span>Option A<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338525[]' id='answer-id-1324181' class='answer   answerof-338525 ' value='1324181'   \/><label for='answer-id-1324181' id='answer-label-1324181' class=' answer'><span>Option B<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338525[]' id='answer-id-1324182' class='answer   answerof-338525 ' value='1324182'   \/><label for='answer-id-1324182' id='answer-label-1324182' class=' answer'><span>Option C<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338525[]' id='answer-id-1324183' class='answer   answerof-338525 ' value='1324183'   \/><label for='answer-id-1324183' id='answer-label-1324183' class=' answer'><span>Option D<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-2' style=';'><div id='questionWrap-2'  class='   watupro-question-id-338526'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>2. <\/span>Which of the following multi qubit-gate represents the controlled-z gate? <br \/>\r<br>A) <br \/>\r<br><br><img decoding=\"async\" width=141 height=109 id=\"\u56fe\u7247 134\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image005-12.jpg\"><br><br \/>\r<br>B) <br \/>\r<br><br><img decoding=\"async\" width=141 height=194 id=\"\u56fe\u7247 133\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image006-10.jpg\"><br><br \/>\r<br>C) <br \/>\r<br><br><img decoding=\"async\" width=141 height=106 id=\"\u56fe\u7247 132\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image007-11.jpg\"><br><br \/>\r<br>D) <br \/>\r<br><br><img decoding=\"async\" width=222 height=106 id=\"\u56fe\u7247 131\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image008-10.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_2' value='338526' \/><input type='hidden' id='answerType338526' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338526[]' id='answer-id-1324184' class='answer   answerof-338526 ' value='1324184'   \/><label for='answer-id-1324184' id='answer-label-1324184' class=' answer'><span>Option A<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338526[]' id='answer-id-1324185' class='answer   answerof-338526 ' value='1324185'   \/><label for='answer-id-1324185' id='answer-label-1324185' class=' answer'><span>Option B<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338526[]' id='answer-id-1324186' class='answer   answerof-338526 ' value='1324186'   \/><label for='answer-id-1324186' id='answer-label-1324186' class=' answer'><span>Option C<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338526[]' id='answer-id-1324187' class='answer   answerof-338526 ' value='1324187'   \/><label for='answer-id-1324187' id='answer-label-1324187' class=' answer'><span>Option D<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-3' style=';'><div id='questionWrap-3'  class='   watupro-question-id-338527'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>3. <\/span>Which one of the below statements is invalid when drawing the quantum circuit?<\/div><input type='hidden' name='question_id[]' id='qID_3' value='338527' \/><input type='hidden' id='answerType338527' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338527[]' id='answer-id-1324188' class='answer   answerof-338527 ' value='1324188'   \/><label for='answer-id-1324188' id='answer-label-1324188' class=' answer'><span>qc.draw(output='mpl')<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338527[]' id='answer-id-1324189' class='answer   answerof-338527 ' value='1324189'   \/><label for='answer-id-1324189' id='answer-label-1324189' class=' answer'><span>qc.draw(output='text')<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338527[]' id='answer-id-1324190' class='answer   answerof-338527 ' value='1324190'   \/><label for='answer-id-1324190' id='answer-label-1324190' class=' answer'><span>qc.draw(output='latex')<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338527[]' id='answer-id-1324191' class='answer   answerof-338527 ' value='1324191'   \/><label for='answer-id-1324191' id='answer-label-1324191' class=' answer'><span>qc.draw(output='png')<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-4' style=';'><div id='questionWrap-4'  class='   watupro-question-id-338528'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>4. <\/span>What fundamental property of classical information is distinctly different in quantum information?<\/div><input type='hidden' name='question_id[]' id='qID_4' value='338528' \/><input type='hidden' id='answerType338528' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338528[]' id='answer-id-1324192' class='answer   answerof-338528 ' value='1324192'   \/><label for='answer-id-1324192' id='answer-label-1324192' class=' answer'><span>Deterministic encoding<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338528[]' id='answer-id-1324193' class='answer   answerof-338528 ' value='1324193'   \/><label for='answer-id-1324193' id='answer-label-1324193' class=' answer'><span>Limited storage capacity<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338528[]' id='answer-id-1324194' class='answer   answerof-338528 ' value='1324194'   \/><label for='answer-id-1324194' id='answer-label-1324194' class=' answer'><span>Non-locality and superposition<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338528[]' id='answer-id-1324195' class='answer   answerof-338528 ' value='1324195'   \/><label for='answer-id-1324195' id='answer-label-1324195' class=' answer'><span>Binary representation<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-5' style=';'><div id='questionWrap-5'  class='   watupro-question-id-338529'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>5. <\/span>What is the role of the Toffoli gate in a quantum circuit?<\/div><input type='hidden' name='question_id[]' id='qID_5' value='338529' \/><input type='hidden' id='answerType338529' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338529[]' id='answer-id-1324196' class='answer   answerof-338529 ' value='1324196'   \/><label for='answer-id-1324196' id='answer-label-1324196' class=' answer'><span>Reverses the state of a qubit<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338529[]' id='answer-id-1324197' class='answer   answerof-338529 ' value='1324197'   \/><label for='answer-id-1324197' id='answer-label-1324197' class=' answer'><span>Acts as a controlled-controlled-NOT gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338529[]' id='answer-id-1324198' class='answer   answerof-338529 ' value='1324198'   \/><label for='answer-id-1324198' id='answer-label-1324198' class=' answer'><span>Implements a phase shift on qubits<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338529[]' id='answer-id-1324199' class='answer   answerof-338529 ' value='1324199'   \/><label for='answer-id-1324199' id='answer-label-1324199' class=' answer'><span>Creates entanglement between qubits<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-6' style=';'><div id='questionWrap-6'  class='   watupro-question-id-338530'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>6. <\/span>How are measurement results represented in quantum computing?<\/div><input type='hidden' name='question_id[]' id='qID_6' value='338530' \/><input type='hidden' id='answerType338530' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338530[]' id='answer-id-1324200' class='answer   answerof-338530 ' value='1324200'   \/><label for='answer-id-1324200' id='answer-label-1324200' class=' answer'><span>As a single number output<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338530[]' id='answer-id-1324201' class='answer   answerof-338530 ' value='1324201'   \/><label for='answer-id-1324201' id='answer-label-1324201' class=' answer'><span>As a probability distribution of classical bit values<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338530[]' id='answer-id-1324202' class='answer   answerof-338530 ' value='1324202'   \/><label for='answer-id-1324202' id='answer-label-1324202' class=' answer'><span>As a complex matrix of qubit states<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338530[]' id='answer-id-1324203' class='answer   answerof-338530 ' value='1324203'   \/><label for='answer-id-1324203' id='answer-label-1324203' class=' answer'><span>As a combination of classical and quantum bits<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-7' style=';'><div id='questionWrap-7'  class='   watupro-question-id-338531'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>7. <\/span>What are the eigenvalues and eigenvectors of X-gate?<\/div><input type='hidden' name='question_id[]' id='qID_7' value='338531' \/><input type='hidden' id='answerType338531' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338531[]' id='answer-id-1324204' class='answer   answerof-338531 ' value='1324204'   \/><label for='answer-id-1324204' id='answer-label-1324204' class=' answer'><span>\u00b11 and |+&gt;, |-&gt;<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338531[]' id='answer-id-1324205' class='answer   answerof-338531 ' value='1324205'   \/><label for='answer-id-1324205' id='answer-label-1324205' class=' answer'><span>-1, +1 and |+&gt;, |-&gt;<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338531[]' id='answer-id-1324206' class='answer   answerof-338531 ' value='1324206'   \/><label for='answer-id-1324206' id='answer-label-1324206' class=' answer'><span>\u00b11 and |0&gt;, |1&gt;<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338531[]' id='answer-id-1324207' class='answer   answerof-338531 ' value='1324207'   \/><label for='answer-id-1324207' id='answer-label-1324207' class=' answer'><span>1, 0 and |+&gt;, |1&gt;<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-8' style=';'><div id='questionWrap-8'  class='   watupro-question-id-338532'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>8. <\/span>What is the function of a SWAP gate in a quantum circuit?<\/div><input type='hidden' name='question_id[]' id='qID_8' value='338532' \/><input type='hidden' id='answerType338532' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338532[]' id='answer-id-1324208' class='answer   answerof-338532 ' value='1324208'   \/><label for='answer-id-1324208' id='answer-label-1324208' class=' answer'><span>Negate the state of qubits<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338532[]' id='answer-id-1324209' class='answer   answerof-338532 ' value='1324209'   \/><label for='answer-id-1324209' id='answer-label-1324209' class=' answer'><span>Exchange the amplitudes of qubits<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338532[]' id='answer-id-1324210' class='answer   answerof-338532 ' value='1324210'   \/><label for='answer-id-1324210' id='answer-label-1324210' class=' answer'><span>Swap the state of two qubits<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338532[]' id='answer-id-1324211' class='answer   answerof-338532 ' value='1324211'   \/><label for='answer-id-1324211' id='answer-label-1324211' class=' answer'><span>Apply a controlled phase shift<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-9' style=';'><div id='questionWrap-9'  class='   watupro-question-id-338533'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>9. <\/span>Which of the following command will be used to monitor the status of the job? <br \/>\r<br>job1 = execute(qc,backend)<\/div><input type='hidden' name='question_id[]' id='qID_9' value='338533' \/><input type='hidden' id='answerType338533' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338533[]' id='answer-id-1324212' class='answer   answerof-338533 ' value='1324212'   \/><label for='answer-id-1324212' id='answer-label-1324212' class=' answer'><span>job_monitor(job1)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338533[]' id='answer-id-1324213' class='answer   answerof-338533 ' value='1324213'   \/><label for='answer-id-1324213' id='answer-label-1324213' class=' answer'><span>job_status(job1)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338533[]' id='answer-id-1324214' class='answer   answerof-338533 ' value='1324214'   \/><label for='answer-id-1324214' id='answer-label-1324214' class=' answer'><span>job_watch(job1)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338533[]' id='answer-id-1324215' class='answer   answerof-338533 ' value='1324215'   \/><label for='answer-id-1324215' id='answer-label-1324215' class=' answer'><span>job_result(job1)<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-10' style=';'><div id='questionWrap-10'  class='   watupro-question-id-338534'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>10. <\/span>What Qiskit function is primarily used to display information about noise models and quantum errors affecting a device?<\/div><input type='hidden' name='question_id[]' id='qID_10' value='338534' \/><input type='hidden' id='answerType338534' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338534[]' id='answer-id-1324216' class='answer   answerof-338534 ' value='1324216'   \/><label for='answer-id-1324216' id='answer-label-1324216' class=' answer'><span>plot_error_details()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338534[]' id='answer-id-1324217' class='answer   answerof-338534 ' value='1324217'   \/><label for='answer-id-1324217' id='answer-label-1324217' class=' answer'><span>display_error_information()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338534[]' id='answer-id-1324218' class='answer   answerof-338534 ' value='1324218'   \/><label for='answer-id-1324218' id='answer-label-1324218' class=' answer'><span>show_error_map()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338534[]' id='answer-id-1324219' class='answer   answerof-338534 ' value='1324219'   \/><label for='answer-id-1324219' id='answer-label-1324219' class=' answer'><span>visualize_noise_models()<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-11' style=';'><div id='questionWrap-11'  class='   watupro-question-id-338535'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>11. <\/span>In classical information theory, information is stored in bits. <br \/>\r<br>What is the quantum analogue to a bit?<\/div><input type='hidden' name='question_id[]' id='qID_11' value='338535' \/><input type='hidden' id='answerType338535' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338535[]' id='answer-id-1324220' class='answer   answerof-338535 ' value='1324220'   \/><label for='answer-id-1324220' id='answer-label-1324220' class=' answer'><span>Qubit<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338535[]' id='answer-id-1324221' class='answer   answerof-338535 ' value='1324221'   \/><label for='answer-id-1324221' id='answer-label-1324221' class=' answer'><span>Quark<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338535[]' id='answer-id-1324222' class='answer   answerof-338535 ' value='1324222'   \/><label for='answer-id-1324222' id='answer-label-1324222' class=' answer'><span>Quantum gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338535[]' id='answer-id-1324223' class='answer   answerof-338535 ' value='1324223'   \/><label for='answer-id-1324223' id='answer-label-1324223' class=' answer'><span>Quantum byte<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-12' style=';'><div id='questionWrap-12'  class='   watupro-question-id-338536'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>12. <\/span>How does the Aer provider contribute to quantum computing experiments?<\/div><input type='hidden' name='question_id[]' id='qID_12' value='338536' \/><input type='hidden' id='answerType338536' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338536[]' id='answer-id-1324224' class='answer   answerof-338536 ' value='1324224'   \/><label for='answer-id-1324224' id='answer-label-1324224' class=' answer'><span>It facilitates direct execution on quantum hardware<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338536[]' id='answer-id-1324225' class='answer   answerof-338536 ' value='1324225'   \/><label for='answer-id-1324225' id='answer-label-1324225' class=' answer'><span>It provides simulators for quantum circuit simulation<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338536[]' id='answer-id-1324226' class='answer   answerof-338536 ' value='1324226'   \/><label for='answer-id-1324226' id='answer-label-1324226' class=' answer'><span>It offers error correction for noisy quantum devices<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338536[]' id='answer-id-1324227' class='answer   answerof-338536 ' value='1324227'   \/><label for='answer-id-1324227' id='answer-label-1324227' class=' answer'><span>It enables visualization of quantum gates<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-13' style=';'><div id='questionWrap-13'  class='   watupro-question-id-338537'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>13. <\/span>Which of the following statement runs the below quantum circuit 1024 times and display the results in a list that contains the probabilities of states? (Select only 2) <br \/>\r<br>qc = QuantumCircuit(2,2) <br \/>\r<br>qc.h(0) <br \/>\r<br>qc.t(0) <br \/>\r<br>qc.t(0) <br \/>\r<br>qc.h(0) <br \/>\r<br>A) <br \/>\r<br><br><img decoding=\"async\" width=287 height=54 id=\"\u56fe\u7247 130\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image009-9.jpg\"><br><br \/>\r<br>B) <br \/>\r<br><br><img decoding=\"async\" width=326 height=40 id=\"\u56fe\u7247 129\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image010-8.jpg\"><br><br \/>\r<br>C) <br \/>\r<br><br><img decoding=\"async\" width=281 height=54 id=\"\u56fe\u7247 128\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image011-8.jpg\"><br><br \/>\r<br>D) <br \/>\r<br><br><img decoding=\"async\" width=300 height=54 id=\"\u56fe\u7247 127\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image012-8.jpg\"><br><br \/>\r<br>E) <br \/>\r<br><br><img decoding=\"async\" width=294 height=54 id=\"\u56fe\u7247 126\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image013-6.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_13' value='338537' \/><input type='hidden' id='answerType338537' value='checkbox'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338537[]' id='answer-id-1324228' class='answer   answerof-338537 ' value='1324228'   \/><label for='answer-id-1324228' id='answer-label-1324228' class=' answer'><span>Option A<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338537[]' id='answer-id-1324229' class='answer   answerof-338537 ' value='1324229'   \/><label for='answer-id-1324229' id='answer-label-1324229' class=' answer'><span>Option B<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338537[]' id='answer-id-1324230' class='answer   answerof-338537 ' value='1324230'   \/><label for='answer-id-1324230' id='answer-label-1324230' class=' answer'><span>Option C<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338537[]' id='answer-id-1324231' class='answer   answerof-338537 ' value='1324231'   \/><label for='answer-id-1324231' id='answer-label-1324231' class=' answer'><span>Option D<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338537[]' id='answer-id-1324232' class='answer   answerof-338537 ' value='1324232'   \/><label for='answer-id-1324232' id='answer-label-1324232' class=' answer'><span>Option E<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-14' style=';'><div id='questionWrap-14'  class='   watupro-question-id-338538'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>14. <\/span>What is the resultant gate when we apply three Hadamard gates (in series) in the single-qubit circuit?<\/div><input type='hidden' name='question_id[]' id='qID_14' value='338538' \/><input type='hidden' id='answerType338538' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338538[]' id='answer-id-1324233' class='answer   answerof-338538 ' value='1324233'   \/><label for='answer-id-1324233' id='answer-label-1324233' class=' answer'><span>I-gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338538[]' id='answer-id-1324234' class='answer   answerof-338538 ' value='1324234'   \/><label for='answer-id-1324234' id='answer-label-1324234' class=' answer'><span>H-gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338538[]' id='answer-id-1324235' class='answer   answerof-338538 ' value='1324235'   \/><label for='answer-id-1324235' id='answer-label-1324235' class=' answer'><span>X-gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338538[]' id='answer-id-1324236' class='answer   answerof-338538 ' value='1324236'   \/><label for='answer-id-1324236' id='answer-label-1324236' class=' answer'><span>Y-gate<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-15' style=';'><div id='questionWrap-15'  class='   watupro-question-id-338539'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>15. <\/span>In the below QuantumCircuit, how many Qubits are there? <br \/>\r<br>bob = QuantumRegister(8,'b') <br \/>\r<br>alice = ClassicalRegister(2,'a') <br \/>\r<br>eve = QuantumRegister(4,'e') <br \/>\r<br>qc = QuantumCircuit(bob,alice,eve)<\/div><input type='hidden' name='question_id[]' id='qID_15' value='338539' \/><input type='hidden' id='answerType338539' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338539[]' id='answer-id-1324237' class='answer   answerof-338539 ' value='1324237'   \/><label for='answer-id-1324237' id='answer-label-1324237' class=' answer'><span>8<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338539[]' id='answer-id-1324238' class='answer   answerof-338539 ' value='1324238'   \/><label for='answer-id-1324238' id='answer-label-1324238' class=' answer'><span>14<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338539[]' id='answer-id-1324239' class='answer   answerof-338539 ' value='1324239'   \/><label for='answer-id-1324239' id='answer-label-1324239' class=' answer'><span>12<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338539[]' id='answer-id-1324240' class='answer   answerof-338539 ' value='1324240'   \/><label for='answer-id-1324240' id='answer-label-1324240' class=' answer'><span>4<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-16' style=';'><div id='questionWrap-16'  class='   watupro-question-id-338540'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>16. <\/span>What role does post-processing play in interpreting quantum experiment results?<\/div><input type='hidden' name='question_id[]' id='qID_16' value='338540' \/><input type='hidden' id='answerType338540' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338540[]' id='answer-id-1324241' class='answer   answerof-338540 ' value='1324241'   \/><label for='answer-id-1324241' id='answer-label-1324241' class=' answer'><span>Correcting errors in the quantum gates<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338540[]' id='answer-id-1324242' class='answer   answerof-338540 ' value='1324242'   \/><label for='answer-id-1324242' id='answer-label-1324242' class=' answer'><span>Optimizing quantum circuits for faster computation<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338540[]' id='answer-id-1324243' class='answer   answerof-338540 ' value='1324243'   \/><label for='answer-id-1324243' id='answer-label-1324243' class=' answer'><span>Filtering out unwanted quantum states<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338540[]' id='answer-id-1324244' class='answer   answerof-338540 ' value='1324244'   \/><label for='answer-id-1324244' id='answer-label-1324244' class=' answer'><span>Analyzing and interpreting measurement outcomes<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-17' style=';'><div id='questionWrap-17'  class='   watupro-question-id-338541'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>17. <\/span>Which quantum algorithm is primarily used for searching an unsorted database?<\/div><input type='hidden' name='question_id[]' id='qID_17' value='338541' \/><input type='hidden' id='answerType338541' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338541[]' id='answer-id-1324245' class='answer   answerof-338541 ' value='1324245'   \/><label for='answer-id-1324245' id='answer-label-1324245' class=' answer'><span>Shor's algorithm<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338541[]' id='answer-id-1324246' class='answer   answerof-338541 ' value='1324246'   \/><label for='answer-id-1324246' id='answer-label-1324246' class=' answer'><span>Grover's algorithm<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338541[]' id='answer-id-1324247' class='answer   answerof-338541 ' value='1324247'   \/><label for='answer-id-1324247' id='answer-label-1324247' class=' answer'><span>Deutsch-Jozsa algorithm<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338541[]' id='answer-id-1324248' class='answer   answerof-338541 ' value='1324248'   \/><label for='answer-id-1324248' id='answer-label-1324248' class=' answer'><span>Simon's algorithm<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-18' style=';'><div id='questionWrap-18'  class='   watupro-question-id-338542'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>18. <\/span>In quantum computing, what does a histogram of measurement outcomes represent?<\/div><input type='hidden' name='question_id[]' id='qID_18' value='338542' \/><input type='hidden' id='answerType338542' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338542[]' id='answer-id-1324249' class='answer   answerof-338542 ' value='1324249'   \/><label for='answer-id-1324249' id='answer-label-1324249' class=' answer'><span>The distribution of entangled qubit states<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338542[]' id='answer-id-1324250' class='answer   answerof-338542 ' value='1324250'   \/><label for='answer-id-1324250' id='answer-label-1324250' class=' answer'><span>The number of gates applied in the circuit<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338542[]' id='answer-id-1324251' class='answer   answerof-338542 ' value='1324251'   \/><label for='answer-id-1324251' id='answer-label-1324251' class=' answer'><span>The probability of obtaining each classical bit value<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338542[]' id='answer-id-1324252' class='answer   answerof-338542 ' value='1324252'   \/><label for='answer-id-1324252' id='answer-label-1324252' class=' answer'><span>The representation of qubit error rates<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-19' style=';'><div id='questionWrap-19'  class='   watupro-question-id-338543'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>19. <\/span>What information does the Bloch sphere visualization provide in quantum computing?<\/div><input type='hidden' name='question_id[]' id='qID_19' value='338543' \/><input type='hidden' id='answerType338543' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338543[]' id='answer-id-1324253' class='answer   answerof-338543 ' value='1324253'   \/><label for='answer-id-1324253' id='answer-label-1324253' class=' answer'><span>The probability amplitudes of qubits<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338543[]' id='answer-id-1324254' class='answer   answerof-338543 ' value='1324254'   \/><label for='answer-id-1324254' id='answer-label-1324254' class=' answer'><span>A graphical representation of quantum circuits<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338543[]' id='answer-id-1324255' class='answer   answerof-338543 ' value='1324255'   \/><label for='answer-id-1324255' id='answer-label-1324255' class=' answer'><span>A display of gate errors and noise in quantum systems<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338543[]' id='answer-id-1324256' class='answer   answerof-338543 ' value='1324256'   \/><label for='answer-id-1324256' id='answer-label-1324256' class=' answer'><span>Connectivity details of quantum hardware<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-20' style=';'><div id='questionWrap-20'  class='   watupro-question-id-338544'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>20. <\/span>What is the equivalent phase of the phase gate when it is Z-gate? <br \/>\r<br><br><img decoding=\"async\" width=188 height=61 id=\"\u56fe\u7247 125\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image014-6.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_20' value='338544' \/><input type='hidden' id='answerType338544' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338544[]' id='answer-id-1324257' class='answer   answerof-338544 ' value='1324257'   \/><label for='answer-id-1324257' id='answer-label-1324257' class=' answer'><span>\u03c0\/4<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338544[]' id='answer-id-1324258' class='answer   answerof-338544 ' value='1324258'   \/><label for='answer-id-1324258' id='answer-label-1324258' class=' answer'><span>\u03c0\/2<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338544[]' id='answer-id-1324259' class='answer   answerof-338544 ' value='1324259'   \/><label for='answer-id-1324259' id='answer-label-1324259' class=' answer'><span>\u03c0<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338544[]' id='answer-id-1324260' class='answer   answerof-338544 ' value='1324260'   \/><label for='answer-id-1324260' id='answer-label-1324260' class=' answer'><span>\u03c0\/8<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-21' style=';'><div id='questionWrap-21'  class='   watupro-question-id-338545'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>21. <\/span>Which of the following command results in densitymatrix output of the below Quantum Circuit? <br \/>\r<br>import qiskit.quantum_info as qi <br \/>\r<br>bell = QuantumCircuit(2) <br \/>\r<br>bell.h(0) <br \/>\r<br>bell.cx(0,1) <br \/>\r<br>A) <br \/>\r<br><br><img decoding=\"async\" width=319 height=26 id=\"\u56fe\u7247 124\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image015-6.jpg\"><br><br \/>\r<br>B) <br \/>\r<br><br><img decoding=\"async\" width=217 height=11 id=\"\u56fe\u7247 123\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image016-7.jpg\"><br><br \/>\r<br>C) <br \/>\r<br><br><img decoding=\"async\" width=191 height=26 id=\"\u56fe\u7247 122\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image017-7.jpg\"><br><br \/>\r<br>D) <br \/>\r<br><br><img decoding=\"async\" width=268 height=25 id=\"\u56fe\u7247 121\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image018-6.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_21' value='338545' \/><input type='hidden' id='answerType338545' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338545[]' id='answer-id-1324261' class='answer   answerof-338545 ' value='1324261'   \/><label for='answer-id-1324261' id='answer-label-1324261' class=' answer'><span>Option A<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338545[]' id='answer-id-1324262' class='answer   answerof-338545 ' value='1324262'   \/><label for='answer-id-1324262' id='answer-label-1324262' class=' answer'><span>Option B<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338545[]' id='answer-id-1324263' class='answer   answerof-338545 ' value='1324263'   \/><label for='answer-id-1324263' id='answer-label-1324263' class=' answer'><span>Option C<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338545[]' id='answer-id-1324264' class='answer   answerof-338545 ' value='1324264'   \/><label for='answer-id-1324264' id='answer-label-1324264' class=' answer'><span>Option D<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-22' style=';'><div id='questionWrap-22'  class='   watupro-question-id-338546'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>22. <\/span>How do the principles of uncertainty in quantum mechanics affect information encoding?<\/div><input type='hidden' name='question_id[]' id='qID_22' value='338546' \/><input type='hidden' id='answerType338546' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338546[]' id='answer-id-1324265' class='answer   answerof-338546 ' value='1324265'   \/><label for='answer-id-1324265' id='answer-label-1324265' class=' answer'><span>They allow for absolute certainty in information transmission<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338546[]' id='answer-id-1324266' class='answer   answerof-338546 ' value='1324266'   \/><label for='answer-id-1324266' id='answer-label-1324266' class=' answer'><span>They impose limitations on simultaneous knowledge of certain pairs of properties<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338546[]' id='answer-id-1324267' class='answer   answerof-338546 ' value='1324267'   \/><label for='answer-id-1324267' id='answer-label-1324267' class=' answer'><span>They have no impact on information encoding<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338546[]' id='answer-id-1324268' class='answer   answerof-338546 ' value='1324268'   \/><label for='answer-id-1324268' id='answer-label-1324268' class=' answer'><span>They make quantum information more predictable than classical information<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-23' style=';'><div id='questionWrap-23'  class='   watupro-question-id-338547'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>23. <\/span>What is the primary advantage of using BasicAer simulators in Qiskit?<\/div><input type='hidden' name='question_id[]' id='qID_23' value='338547' \/><input type='hidden' id='answerType338547' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338547[]' id='answer-id-1324269' class='answer   answerof-338547 ' value='1324269'   \/><label for='answer-id-1324269' id='answer-label-1324269' class=' answer'><span>Execution on actual quantum hardware<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338547[]' id='answer-id-1324270' class='answer   answerof-338547 ' value='1324270'   \/><label for='answer-id-1324270' id='answer-label-1324270' class=' answer'><span>Fast and efficient simulation of quantum circuits<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338547[]' id='answer-id-1324271' class='answer   answerof-338547 ' value='1324271'   \/><label for='answer-id-1324271' id='answer-label-1324271' class=' answer'><span>Higher qubit capacity compared to other simulators<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338547[]' id='answer-id-1324272' class='answer   answerof-338547 ' value='1324272'   \/><label for='answer-id-1324272' id='answer-label-1324272' class=' answer'><span>Simulating quantum error correction codes<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-24' style=';'><div id='questionWrap-24'  class='   watupro-question-id-338548'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>24. <\/span>What does Qasm stand for in quantum computing?<\/div><input type='hidden' name='question_id[]' id='qID_24' value='338548' \/><input type='hidden' id='answerType338548' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338548[]' id='answer-id-1324273' class='answer   answerof-338548 ' value='1324273'   \/><label for='answer-id-1324273' id='answer-label-1324273' class=' answer'><span>Quantum Asymmetric Simulation Model<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338548[]' id='answer-id-1324274' class='answer   answerof-338548 ' value='1324274'   \/><label for='answer-id-1324274' id='answer-label-1324274' class=' answer'><span>Quantum Assembler<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338548[]' id='answer-id-1324275' class='answer   answerof-338548 ' value='1324275'   \/><label for='answer-id-1324275' id='answer-label-1324275' class=' answer'><span>Quantum Assembly Language<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338548[]' id='answer-id-1324276' class='answer   answerof-338548 ' value='1324276'   \/><label for='answer-id-1324276' id='answer-label-1324276' class=' answer'><span>Quantum Algorithmic Solver<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-25' style=';'><div id='questionWrap-25'  class='   watupro-question-id-338549'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>25. <\/span>What code fragment codes the equivalent circuit if you remove the barrier in the following QuantumCircuit? <br \/>\r<br><br><img decoding=\"async\" width=371 height=94 id=\"\u56fe\u7247 120\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image019-6.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_25' value='338549' \/><input type='hidden' id='answerType338549' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338549[]' id='answer-id-1324277' class='answer   answerof-338549 ' value='1324277'   \/><label for='answer-id-1324277' id='answer-label-1324277' class=' answer'><span>qc = QuantumCircuit(1,1) \r\nqc.h(0) \r\nqc.s(0) \r\nqc.h(0) \r\nqc.measure(0,0)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338549[]' id='answer-id-1324278' class='answer   answerof-338549 ' value='1324278'   \/><label for='answer-id-1324278' id='answer-label-1324278' class=' answer'><span>qc = QuantumCircuit(1,1) \r\nqc.measure(0,0)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338549[]' id='answer-id-1324279' class='answer   answerof-338549 ' value='1324279'   \/><label for='answer-id-1324279' id='answer-label-1324279' class=' answer'><span>qc = QuantumCircuit(1,1) \r\nqc.h(0) \r\nqc.t(0) \r\nqc.tdg(0) \r\nqc.h(0) \r\nqc.measure(0,0)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338549[]' id='answer-id-1324280' class='answer   answerof-338549 ' value='1324280'   \/><label for='answer-id-1324280' id='answer-label-1324280' class=' answer'><span>qc = QuantumCircuit(1,1) \r\nqc.h(0) \r\nqc.z(0) \r\nqc.h(0) \r\nqc.measure(0,0)<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-26' style=';'><div id='questionWrap-26'  class='   watupro-question-id-338550'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>26. <\/span>In Qiskit, what function allows users to display a list of available backends for quantum computation?<\/div><input type='hidden' name='question_id[]' id='qID_26' value='338550' \/><input type='hidden' id='answerType338550' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338550[]' id='answer-id-1324281' class='answer   answerof-338550 ' value='1324281'   \/><label for='answer-id-1324281' id='answer-label-1324281' class=' answer'><span>show_backends()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338550[]' id='answer-id-1324282' class='answer   answerof-338550 ' value='1324282'   \/><label for='answer-id-1324282' id='answer-label-1324282' class=' answer'><span>list_quantum_devices()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338550[]' id='answer-id-1324283' class='answer   answerof-338550 ' value='1324283'   \/><label for='answer-id-1324283' id='answer-label-1324283' class=' answer'><span>display_backends()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338550[]' id='answer-id-1324284' class='answer   answerof-338550 ' value='1324284'   \/><label for='answer-id-1324284' id='answer-label-1324284' class=' answer'><span>available_backends()<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-27' style=';'><div id='questionWrap-27'  class='   watupro-question-id-338551'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>27. <\/span>Which of the following is the best option to plot the |+&gt; basis in plot_bloch_vector?<\/div><input type='hidden' name='question_id[]' id='qID_27' value='338551' \/><input type='hidden' id='answerType338551' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338551[]' id='answer-id-1324285' class='answer   answerof-338551 ' value='1324285'   \/><label for='answer-id-1324285' id='answer-label-1324285' class=' answer'><span>plot_bloch_vector([0,1,0])<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338551[]' id='answer-id-1324286' class='answer   answerof-338551 ' value='1324286'   \/><label for='answer-id-1324286' id='answer-label-1324286' class=' answer'><span>plot_bloch_vector([1,0,0])<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338551[]' id='answer-id-1324287' class='answer   answerof-338551 ' value='1324287'   \/><label for='answer-id-1324287' id='answer-label-1324287' class=' answer'><span>plot_bloch_vector([0,0,1])<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338551[]' id='answer-id-1324288' class='answer   answerof-338551 ' value='1324288'   \/><label for='answer-id-1324288' id='answer-label-1324288' class=' answer'><span>plot_bloch_vector([0,0.5,0])<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-28' style=';'><div id='questionWrap-28'  class='   watupro-question-id-338552'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>28. <\/span>Which tool is commonly used to simulate quantum circuits and execute experiments in a software environment?<\/div><input type='hidden' name='question_id[]' id='qID_28' value='338552' \/><input type='hidden' id='answerType338552' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338552[]' id='answer-id-1324289' class='answer   answerof-338552 ' value='1324289'   \/><label for='answer-id-1324289' id='answer-label-1324289' class=' answer'><span>Qiskit Aer<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338552[]' id='answer-id-1324290' class='answer   answerof-338552 ' value='1324290'   \/><label for='answer-id-1324290' id='answer-label-1324290' class=' answer'><span>Quantum Assembly Language (QASM)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338552[]' id='answer-id-1324291' class='answer   answerof-338552 ' value='1324291'   \/><label for='answer-id-1324291' id='answer-label-1324291' class=' answer'><span>IBM Quantum Experience<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338552[]' id='answer-id-1324292' class='answer   answerof-338552 ' value='1324292'   \/><label for='answer-id-1324292' id='answer-label-1324292' class=' answer'><span>Q# Programming Language<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-29' style=';'><div id='questionWrap-29'  class='   watupro-question-id-338553'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>29. <\/span>Which of the following statements best describes the role of Qasm in programming quantum circuits?<\/div><input type='hidden' name='question_id[]' id='qID_29' value='338553' \/><input type='hidden' id='answerType338553' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338553[]' id='answer-id-1324293' class='answer   answerof-338553 ' value='1324293'   \/><label for='answer-id-1324293' id='answer-label-1324293' class=' answer'><span>Qasm describes classical computations that support quantum circuits<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338553[]' id='answer-id-1324294' class='answer   answerof-338553 ' value='1324294'   \/><label for='answer-id-1324294' id='answer-label-1324294' class=' answer'><span>Qasm provides a way to visualize quantum circuit execution<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338553[]' id='answer-id-1324295' class='answer   answerof-338553 ' value='1324295'   \/><label for='answer-id-1324295' id='answer-label-1324295' class=' answer'><span>Qasm describes the sequence of quantum operations in a circuit<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338553[]' id='answer-id-1324296' class='answer   answerof-338553 ' value='1324296'   \/><label for='answer-id-1324296' id='answer-label-1324296' class=' answer'><span>Qasm is a programming language used for quantum hardware communication<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-30' style=';'><div id='questionWrap-30'  class='   watupro-question-id-338554'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>30. <\/span>Which programming paradigm best aligns with Qasm in the context of quantum computing?<\/div><input type='hidden' name='question_id[]' id='qID_30' value='338554' \/><input type='hidden' id='answerType338554' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338554[]' id='answer-id-1324297' class='answer   answerof-338554 ' value='1324297'   \/><label for='answer-id-1324297' id='answer-label-1324297' class=' answer'><span>Procedural programming<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338554[]' id='answer-id-1324298' class='answer   answerof-338554 ' value='1324298'   \/><label for='answer-id-1324298' id='answer-label-1324298' class=' answer'><span>Object-oriented programming<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338554[]' id='answer-id-1324299' class='answer   answerof-338554 ' value='1324299'   \/><label for='answer-id-1324299' id='answer-label-1324299' class=' answer'><span>Imperative programming<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338554[]' id='answer-id-1324300' class='answer   answerof-338554 ' value='1324300'   \/><label for='answer-id-1324300' id='answer-label-1324300' class=' answer'><span>Domain-specific language programming<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-31' style=';'><div id='questionWrap-31'  class='   watupro-question-id-338555'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>31. <\/span>Which quantum logic gate is commonly used to create entangled states?<\/div><input type='hidden' name='question_id[]' id='qID_31' value='338555' \/><input type='hidden' id='answerType338555' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338555[]' id='answer-id-1324301' class='answer   answerof-338555 ' value='1324301'   \/><label for='answer-id-1324301' id='answer-label-1324301' class=' answer'><span>Hadamard gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338555[]' id='answer-id-1324302' class='answer   answerof-338555 ' value='1324302'   \/><label for='answer-id-1324302' id='answer-label-1324302' class=' answer'><span>CNOT gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338555[]' id='answer-id-1324303' class='answer   answerof-338555 ' value='1324303'   \/><label for='answer-id-1324303' id='answer-label-1324303' class=' answer'><span>Pauli-X gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338555[]' id='answer-id-1324304' class='answer   answerof-338555 ' value='1324304'   \/><label for='answer-id-1324304' id='answer-label-1324304' class=' answer'><span>Toffoli gate<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-32' style=';'><div id='questionWrap-32'  class='   watupro-question-id-338556'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>32. <\/span>Which Qiskit function is used to visualize the statevector of a quantum circuit?<\/div><input type='hidden' name='question_id[]' id='qID_32' value='338556' \/><input type='hidden' id='answerType338556' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338556[]' id='answer-id-1324305' class='answer   answerof-338556 ' value='1324305'   \/><label for='answer-id-1324305' id='answer-label-1324305' class=' answer'><span>plot_statevector()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338556[]' id='answer-id-1324306' class='answer   answerof-338556 ' value='1324306'   \/><label for='answer-id-1324306' id='answer-label-1324306' class=' answer'><span>display_quantum_statevector()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338556[]' id='answer-id-1324307' class='answer   answerof-338556 ' value='1324307'   \/><label for='answer-id-1324307' id='answer-label-1324307' class=' answer'><span>visualize_state()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338556[]' id='answer-id-1324308' class='answer   answerof-338556 ' value='1324308'   \/><label for='answer-id-1324308' id='answer-label-1324308' class=' answer'><span>draw_statevector()<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-33' style=';'><div id='questionWrap-33'  class='   watupro-question-id-338557'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>33. <\/span>What feature differentiates the Aer provider's simulators from other backends in Qiskit?<\/div><input type='hidden' name='question_id[]' id='qID_33' value='338557' \/><input type='hidden' id='answerType338557' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338557[]' id='answer-id-1324309' class='answer   answerof-338557 ' value='1324309'   \/><label for='answer-id-1324309' id='answer-label-1324309' class=' answer'><span>The ability to execute directly on IBM Quantum Experience<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338557[]' id='answer-id-1324310' class='answer   answerof-338557 ' value='1324310'   \/><label for='answer-id-1324310' id='answer-label-1324310' class=' answer'><span>Access to classical computing resources<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338557[]' id='answer-id-1324311' class='answer   answerof-338557 ' value='1324311'   \/><label for='answer-id-1324311' id='answer-label-1324311' class=' answer'><span>Specialized quantum error correction capabilities<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338557[]' id='answer-id-1324312' class='answer   answerof-338557 ' value='1324312'   \/><label for='answer-id-1324312' id='answer-label-1324312' class=' answer'><span>Tailored, high-performance quantum simulations<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-34' style=';'><div id='questionWrap-34'  class='   watupro-question-id-338558'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>34. <\/span>What Qiskit component enables simulation of quantum systems, including noise models and backends?<\/div><input type='hidden' name='question_id[]' id='qID_34' value='338558' \/><input type='hidden' id='answerType338558' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338558[]' id='answer-id-1324313' class='answer   answerof-338558 ' value='1324313'   \/><label for='answer-id-1324313' id='answer-label-1324313' class=' answer'><span>Qiskit Ignis<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338558[]' id='answer-id-1324314' class='answer   answerof-338558 ' value='1324314'   \/><label for='answer-id-1324314' id='answer-label-1324314' class=' answer'><span>Qiskit Terra<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338558[]' id='answer-id-1324315' class='answer   answerof-338558 ' value='1324315'   \/><label for='answer-id-1324315' id='answer-label-1324315' class=' answer'><span>Qiskit Aer<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338558[]' id='answer-id-1324316' class='answer   answerof-338558 ' value='1324316'   \/><label for='answer-id-1324316' id='answer-label-1324316' class=' answer'><span>Qiskit Aqua<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-35' style=';'><div id='questionWrap-35'  class='   watupro-question-id-338559'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>35. <\/span>What kind of information does the statevector_simulator provide about a quantum circuit?<\/div><input type='hidden' name='question_id[]' id='qID_35' value='338559' \/><input type='hidden' id='answerType338559' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338559[]' id='answer-id-1324317' class='answer   answerof-338559 ' value='1324317'   \/><label for='answer-id-1324317' id='answer-label-1324317' class=' answer'><span>The final state vector of the quantum system after the circuit execution<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338559[]' id='answer-id-1324318' class='answer   answerof-338559 ' value='1324318'   \/><label for='answer-id-1324318' id='answer-label-1324318' class=' answer'><span>The unitary matrix representing the quantum gates in the circuit<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338559[]' id='answer-id-1324319' class='answer   answerof-338559 ' value='1324319'   \/><label for='answer-id-1324319' id='answer-label-1324319' class=' answer'><span>The noise model affecting the quantum operations<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338559[]' id='answer-id-1324320' class='answer   answerof-338559 ' value='1324320'   \/><label for='answer-id-1324320' id='answer-label-1324320' class=' answer'><span>The measurement outcomes of the qubits<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-36' style=';'><div id='questionWrap-36'  class='   watupro-question-id-338560'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>36. <\/span>Which code fragment will produce a maximally entangled, or Bell, state?<\/div><input type='hidden' name='question_id[]' id='qID_36' value='338560' \/><input type='hidden' id='answerType338560' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338560[]' id='answer-id-1324321' class='answer   answerof-338560 ' value='1324321'   \/><label for='answer-id-1324321' id='answer-label-1324321' class=' answer'><span>bell = QuantumCircuit(2) \r\nbell.h(0) \r\nbell.x(1) \r\nbell.cx(0, 1)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338560[]' id='answer-id-1324322' class='answer   answerof-338560 ' value='1324322'   \/><label for='answer-id-1324322' id='answer-label-1324322' class=' answer'><span>bell = QuantumCircuit(2) \r\nbell.cx(0, 1) \r\nbell.h(0) \r\nbell.x(1)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338560[]' id='answer-id-1324323' class='answer   answerof-338560 ' value='1324323'   \/><label for='answer-id-1324323' id='answer-label-1324323' class=' answer'><span>bell = QuantumCircuit(2) \r\nbell.h(0) \r\nbell.x(1) \r\nbell.cz(0, 1)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338560[]' id='answer-id-1324324' class='answer   answerof-338560 ' value='1324324'   \/><label for='answer-id-1324324' id='answer-label-1324324' class=' answer'><span>bell = QuantumCircuit(2) \r\nbell.h(0) \r\nbell.h(0)<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-37' style=';'><div id='questionWrap-37'  class='   watupro-question-id-338561'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>37. <\/span>Which of the following statement will return a random state vector of dimension 2?<\/div><input type='hidden' name='question_id[]' id='qID_37' value='338561' \/><input type='hidden' id='answerType338561' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338561[]' id='answer-id-1324325' class='answer   answerof-338561 ' value='1324325'   \/><label for='answer-id-1324325' id='answer-label-1324325' class=' answer'><span>random_statevector_operator(2)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338561[]' id='answer-id-1324326' class='answer   answerof-338561 ' value='1324326'   \/><label for='answer-id-1324326' id='answer-label-1324326' class=' answer'><span>random_get_statevector(2)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338561[]' id='answer-id-1324327' class='answer   answerof-338561 ' value='1324327'   \/><label for='answer-id-1324327' id='answer-label-1324327' class=' answer'><span>random_statevector(2)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338561[]' id='answer-id-1324328' class='answer   answerof-338561 ' value='1324328'   \/><label for='answer-id-1324328' id='answer-label-1324328' class=' answer'><span>random_get_statevector_operator(2)<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-38' style=';'><div id='questionWrap-38'  class='   watupro-question-id-338562'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>38. <\/span>When applying a CNOT gate to two qubits, which qubit acts as the control and which one acts as the target?<\/div><input type='hidden' name='question_id[]' id='qID_38' value='338562' \/><input type='hidden' id='answerType338562' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338562[]' id='answer-id-1324329' class='answer   answerof-338562 ' value='1324329'   \/><label for='answer-id-1324329' id='answer-label-1324329' class=' answer'><span>The first qubit is the control, and the second qubit is the target<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338562[]' id='answer-id-1324330' class='answer   answerof-338562 ' value='1324330'   \/><label for='answer-id-1324330' id='answer-label-1324330' class=' answer'><span>The second qubit is the control, and the first qubit is the target<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338562[]' id='answer-id-1324331' class='answer   answerof-338562 ' value='1324331'   \/><label for='answer-id-1324331' id='answer-label-1324331' class=' answer'><span>It doesn't matter, as the CNOT gate is symmetric<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338562[]' id='answer-id-1324332' class='answer   answerof-338562 ' value='1324332'   \/><label for='answer-id-1324332' id='answer-label-1324332' class=' answer'><span>Both qubits simultaneously act as control and target<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-39' style=';'><div id='questionWrap-39'  class='   watupro-question-id-338563'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>39. <\/span>In executing quantum experiments, what does &quot;quantum volume&quot; measure?<\/div><input type='hidden' name='question_id[]' id='qID_39' value='338563' \/><input type='hidden' id='answerType338563' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338563[]' id='answer-id-1324333' class='answer   answerof-338563 ' value='1324333'   \/><label for='answer-id-1324333' id='answer-label-1324333' class=' answer'><span>The number of qubits in a quantum circuit<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338563[]' id='answer-id-1324334' class='answer   answerof-338563 ' value='1324334'   \/><label for='answer-id-1324334' id='answer-label-1324334' class=' answer'><span>The speed of quantum computations<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338563[]' id='answer-id-1324335' class='answer   answerof-338563 ' value='1324335'   \/><label for='answer-id-1324335' id='answer-label-1324335' class=' answer'><span>The complexity of quantum algorithms<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338563[]' id='answer-id-1324336' class='answer   answerof-338563 ' value='1324336'   \/><label for='answer-id-1324336' id='answer-label-1324336' class=' answer'><span>The overall performance and error rates of quantum hardware<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-40' style=';'><div id='questionWrap-40'  class='   watupro-question-id-338564'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>40. <\/span>In the Qiskit framework, which component is essential for studying and implementing methods to mitigate errors in quantum computation?<\/div><input type='hidden' name='question_id[]' id='qID_40' value='338564' \/><input type='hidden' id='answerType338564' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338564[]' id='answer-id-1324337' class='answer   answerof-338564 ' value='1324337'   \/><label for='answer-id-1324337' id='answer-label-1324337' class=' answer'><span>Qiskit Aqua<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338564[]' id='answer-id-1324338' class='answer   answerof-338564 ' value='1324338'   \/><label for='answer-id-1324338' id='answer-label-1324338' class=' answer'><span>Qiskit Terra<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338564[]' id='answer-id-1324339' class='answer   answerof-338564 ' value='1324339'   \/><label for='answer-id-1324339' id='answer-label-1324339' class=' answer'><span>Qiskit Ignis<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338564[]' id='answer-id-1324340' class='answer   answerof-338564 ' value='1324340'   \/><label for='answer-id-1324340' id='answer-label-1324340' class=' answer'><span>Qiskit Aer<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-41' style=';'><div id='questionWrap-41'  class='   watupro-question-id-338565'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>41. <\/span>What will be the output of the result variable in the below snippet? <br \/>\r<br>q = QuantumRegister(1,'q') <br \/>\r<br>qc = QuantumCircuit(q) <br \/>\r<br>qc.y(0) <br \/>\r<br>backend_unitary = BasicAer.get_backend('unitary_simulator') <br \/>\r<br>result = execute(qc,backend_unitary).result().get_unitary(decimals=3)<\/div><input type='hidden' name='question_id[]' id='qID_41' value='338565' \/><input type='hidden' id='answerType338565' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338565[]' id='answer-id-1324341' class='answer   answerof-338565 ' value='1324341'   \/><label for='answer-id-1324341' id='answer-label-1324341' class=' answer'><span><br><img decoding=\"async\" width=293 height=11 id=\"\u56fe\u7247 119\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image020-6.jpg\"><br><\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338565[]' id='answer-id-1324342' class='answer   answerof-338565 ' value='1324342'   \/><label for='answer-id-1324342' id='answer-label-1324342' class=' answer'><span><br><img decoding=\"async\" width=113 height=11 id=\"\u56fe\u7247 118\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image021-5.jpg\"><br><\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338565[]' id='answer-id-1324343' class='answer   answerof-338565 ' value='1324343'   \/><label for='answer-id-1324343' id='answer-label-1324343' class=' answer'><span><br><img decoding=\"async\" width=332 height=11 id=\"\u56fe\u7247 117\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image022-6.jpg\"><br><\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338565[]' id='answer-id-1324344' class='answer   answerof-338565 ' value='1324344'   \/><label for='answer-id-1324344' id='answer-label-1324344' class=' answer'><span><br><img decoding=\"async\" width=106 height=11 id=\"\u56fe\u7247 116\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image023-6.jpg\"><br><\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-42' style=';'><div id='questionWrap-42'  class='   watupro-question-id-338566'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>42. <\/span>Which of the following code snippet for the below quantum circuit will put the given qubits in a equiprobable states? <br \/>\r<br>qc=QuantumCircuit(2)<\/div><input type='hidden' name='question_id[]' id='qID_42' value='338566' \/><input type='hidden' id='answerType338566' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338566[]' id='answer-id-1324345' class='answer   answerof-338566 ' value='1324345'   \/><label for='answer-id-1324345' id='answer-label-1324345' class=' answer'><span>qc.h(0) \r\nqc.cx(0,1)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338566[]' id='answer-id-1324346' class='answer   answerof-338566 ' value='1324346'   \/><label for='answer-id-1324346' id='answer-label-1324346' class=' answer'><span>qc.h(0) \r\nqc.h(1)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338566[]' id='answer-id-1324347' class='answer   answerof-338566 ' value='1324347'   \/><label for='answer-id-1324347' id='answer-label-1324347' class=' answer'><span>qc.x(0) \r\nqc.h(0) \r\nqc.cx(0, 1)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338566[]' id='answer-id-1324348' class='answer   answerof-338566 ' value='1324348'   \/><label for='answer-id-1324348' id='answer-label-1324348' class=' answer'><span>qc.h(0) \r\nqc.x(1) \r\nqc.cx(0,1)<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-43' style=';'><div id='questionWrap-43'  class='   watupro-question-id-338567'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>43. <\/span>S-gate is a Qiskit phase gate with what value of the phase parameter?<\/div><input type='hidden' name='question_id[]' id='qID_43' value='338567' \/><input type='hidden' id='answerType338567' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338567[]' id='answer-id-1324349' class='answer   answerof-338567 ' value='1324349'   \/><label for='answer-id-1324349' id='answer-label-1324349' class=' answer'><span>\u03c0\/8<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338567[]' id='answer-id-1324350' class='answer   answerof-338567 ' value='1324350'   \/><label for='answer-id-1324350' id='answer-label-1324350' class=' answer'><span>\u03c0\/4<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338567[]' id='answer-id-1324351' class='answer   answerof-338567 ' value='1324351'   \/><label for='answer-id-1324351' id='answer-label-1324351' class=' answer'><span>\u03c0<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338567[]' id='answer-id-1324352' class='answer   answerof-338567 ' value='1324352'   \/><label for='answer-id-1324352' id='answer-label-1324352' class=' answer'><span>\u03c0\/2<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-44' style=';'><div id='questionWrap-44'  class='   watupro-question-id-338568'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>44. <\/span>What would be the fidelity result(s) for these two operators, which differ only by global phase? <br \/>\r<br>op_a = Operator(XGate()) <br \/>\r<br>op_b = numpy.exp(1j * 0.5) * Operator(XGate())<\/div><input type='hidden' name='question_id[]' id='qID_44' value='338568' \/><input type='hidden' id='answerType338568' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338568[]' id='answer-id-1324353' class='answer   answerof-338568 ' value='1324353'   \/><label for='answer-id-1324353' id='answer-label-1324353' class=' answer'><span>state_fidelity() of 1.0<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338568[]' id='answer-id-1324354' class='answer   answerof-338568 ' value='1324354'   \/><label for='answer-id-1324354' id='answer-label-1324354' class=' answer'><span>state_fidelity() and average_gate_fidelity() of 1.0<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338568[]' id='answer-id-1324355' class='answer   answerof-338568 ' value='1324355'   \/><label for='answer-id-1324355' id='answer-label-1324355' class=' answer'><span>average_gate_fidelity() and process_fidelity() of 1.0<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338568[]' id='answer-id-1324356' class='answer   answerof-338568 ' value='1324356'   \/><label for='answer-id-1324356' id='answer-label-1324356' class=' answer'><span>state_fidelity(), average_gate_fidelity() and process_fidelity() of 1.0<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-45' style=';'><div id='questionWrap-45'  class='   watupro-question-id-338569'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>45. <\/span>If we have n qubits, how many states can we represent maximum?<\/div><input type='hidden' name='question_id[]' id='qID_45' value='338569' \/><input type='hidden' id='answerType338569' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338569[]' id='answer-id-1324357' class='answer   answerof-338569 ' value='1324357'   \/><label for='answer-id-1324357' id='answer-label-1324357' class=' answer'><span>2n<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338569[]' id='answer-id-1324358' class='answer   answerof-338569 ' value='1324358'   \/><label for='answer-id-1324358' id='answer-label-1324358' class=' answer'><span>n^2<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338569[]' id='answer-id-1324359' class='answer   answerof-338569 ' value='1324359'   \/><label for='answer-id-1324359' id='answer-label-1324359' class=' answer'><span>2^n<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338569[]' id='answer-id-1324360' class='answer   answerof-338569 ' value='1324360'   \/><label for='answer-id-1324360' id='answer-label-1324360' class=' answer'><span>2^n - 1<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-46' style=';'><div id='questionWrap-46'  class='   watupro-question-id-338570'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>46. <\/span>What type of information does Qasm provide regarding quantum circuits?<\/div><input type='hidden' name='question_id[]' id='qID_46' value='338570' \/><input type='hidden' id='answerType338570' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338570[]' id='answer-id-1324361' class='answer   answerof-338570 ' value='1324361'   \/><label for='answer-id-1324361' id='answer-label-1324361' class=' answer'><span>Details about the execution time of the circuit<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338570[]' id='answer-id-1324362' class='answer   answerof-338570 ' value='1324362'   \/><label for='answer-id-1324362' id='answer-label-1324362' class=' answer'><span>Descriptions of classical computations within the quantum circuit<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338570[]' id='answer-id-1324363' class='answer   answerof-338570 ' value='1324363'   \/><label for='answer-id-1324363' id='answer-label-1324363' class=' answer'><span>Specifications of quantum gates, qubit interactions, and measurements<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338570[]' id='answer-id-1324364' class='answer   answerof-338570 ' value='1324364'   \/><label for='answer-id-1324364' id='answer-label-1324364' class=' answer'><span>Quantum error rates and correction techniques<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-47' style=';'><div id='questionWrap-47'  class='   watupro-question-id-338571'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>47. <\/span>Which Qiskit component provides access to the Aer provider for quantum simulation?<\/div><input type='hidden' name='question_id[]' id='qID_47' value='338571' \/><input type='hidden' id='answerType338571' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338571[]' id='answer-id-1324365' class='answer   answerof-338571 ' value='1324365'   \/><label for='answer-id-1324365' id='answer-label-1324365' class=' answer'><span>Qiskit Ignis<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338571[]' id='answer-id-1324366' class='answer   answerof-338571 ' value='1324366'   \/><label for='answer-id-1324366' id='answer-label-1324366' class=' answer'><span>Qiskit Terra<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338571[]' id='answer-id-1324367' class='answer   answerof-338571 ' value='1324367'   \/><label for='answer-id-1324367' id='answer-label-1324367' class=' answer'><span>Qiskit Aer<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338571[]' id='answer-id-1324368' class='answer   answerof-338571 ' value='1324368'   \/><label for='answer-id-1324368' id='answer-label-1324368' class=' answer'><span>Qiskit Aqua<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-48' style=';'><div id='questionWrap-48'  class='   watupro-question-id-338572'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>48. <\/span>Which quantum gate is commonly used for reversing a quantum operation?<\/div><input type='hidden' name='question_id[]' id='qID_48' value='338572' \/><input type='hidden' id='answerType338572' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338572[]' id='answer-id-1324369' class='answer   answerof-338572 ' value='1324369'   \/><label for='answer-id-1324369' id='answer-label-1324369' class=' answer'><span>T gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338572[]' id='answer-id-1324370' class='answer   answerof-338572 ' value='1324370'   \/><label for='answer-id-1324370' id='answer-label-1324370' class=' answer'><span>CNOT gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338572[]' id='answer-id-1324371' class='answer   answerof-338572 ' value='1324371'   \/><label for='answer-id-1324371' id='answer-label-1324371' class=' answer'><span>Pauli-X gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338572[]' id='answer-id-1324372' class='answer   answerof-338572 ' value='1324372'   \/><label for='answer-id-1324372' id='answer-label-1324372' class=' answer'><span>Hadamard gate<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-49' style=';'><div id='questionWrap-49'  class='   watupro-question-id-338573'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>49. <\/span>Please choose the correct identities applicable: (Select 2)<\/div><input type='hidden' name='question_id[]' id='qID_49' value='338573' \/><input type='hidden' id='answerType338573' value='checkbox'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338573[]' id='answer-id-1324373' class='answer   answerof-338573 ' value='1324373'   \/><label for='answer-id-1324373' id='answer-label-1324373' class=' answer'><span>HXH = Z<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338573[]' id='answer-id-1324374' class='answer   answerof-338573 ' value='1324374'   \/><label for='answer-id-1324374' id='answer-label-1324374' class=' answer'><span>HYH = X<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338573[]' id='answer-id-1324375' class='answer   answerof-338573 ' value='1324375'   \/><label for='answer-id-1324375' id='answer-label-1324375' class=' answer'><span>HZH = X<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338573[]' id='answer-id-1324376' class='answer   answerof-338573 ' value='1324376'   \/><label for='answer-id-1324376' id='answer-label-1324376' class=' answer'><span>ZXZ = Z<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338573[]' id='answer-id-1324377' class='answer   answerof-338573 ' value='1324377'   \/><label for='answer-id-1324377' id='answer-label-1324377' class=' answer'><span>ZYZ = H<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-50' style=';'><div id='questionWrap-50'  class='   watupro-question-id-338574'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>50. <\/span>Which code fragment would yield an operator that represents a single-qubit X gate?<\/div><input type='hidden' name='question_id[]' id='qID_50' value='338574' \/><input type='hidden' id='answerType338574' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338574[]' id='answer-id-1324378' class='answer   answerof-338574 ' value='1324378'   \/><label for='answer-id-1324378' id='answer-label-1324378' class=' answer'><span>op = Operator.Xop(0)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338574[]' id='answer-id-1324379' class='answer   answerof-338574 ' value='1324379'   \/><label for='answer-id-1324379' id='answer-label-1324379' class=' answer'><span>qc = QuantumCircuit(1) \r\nqc.x(0) \r\nop = Operator(qc)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338574[]' id='answer-id-1324380' class='answer   answerof-338574 ' value='1324380'   \/><label for='answer-id-1324380' id='answer-label-1324380' class=' answer'><span>op = Operator([[0,1]])<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338574[]' id='answer-id-1324381' class='answer   answerof-338574 ' value='1324381'   \/><label for='answer-id-1324381' id='answer-label-1324381' class=' answer'><span>op = Operator([[1,0,0,1]])<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-51' style=';'><div id='questionWrap-51'  class='   watupro-question-id-338575'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>51. <\/span>What is the function of noise models in quantum simulators?<\/div><input type='hidden' name='question_id[]' id='qID_51' value='338575' \/><input type='hidden' id='answerType338575' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338575[]' id='answer-id-1324382' class='answer   answerof-338575 ' value='1324382'   \/><label for='answer-id-1324382' id='answer-label-1324382' class=' answer'><span>Introduce errors and simulate real-world quantum hardware behavior<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338575[]' id='answer-id-1324383' class='answer   answerof-338575 ' value='1324383'   \/><label for='answer-id-1324383' id='answer-label-1324383' class=' answer'><span>Minimize errors and produce ideal quantum states<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338575[]' id='answer-id-1324384' class='answer   answerof-338575 ' value='1324384'   \/><label for='answer-id-1324384' id='answer-label-1324384' class=' answer'><span>Enable faster execution of quantum algorithms<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338575[]' id='answer-id-1324385' class='answer   answerof-338575 ' value='1324385'   \/><label for='answer-id-1324385' id='answer-label-1324385' class=' answer'><span>Provide additional qubit capacity for larger simulations<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-52' style=';'><div id='questionWrap-52'  class='   watupro-question-id-338576'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>52. <\/span>Predict the output of the average_gate_fidelity, process_fidelity of the below snippet: <br \/>\r<br>a = Operator(XGate()) <br \/>\r<br>b = np.exp(1j \/3) * a <br \/>\r<br>average_gate_fidelity(a,b) <br \/>\r<br>process_fiedlity(a,b)<\/div><input type='hidden' name='question_id[]' id='qID_52' value='338576' \/><input type='hidden' id='answerType338576' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338576[]' id='answer-id-1324386' class='answer   answerof-338576 ' value='1324386'   \/><label for='answer-id-1324386' id='answer-label-1324386' class=' answer'><span>average_gate_fidelity will be 0.5 and  process_fidelity will be 1.0<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338576[]' id='answer-id-1324387' class='answer   answerof-338576 ' value='1324387'   \/><label for='answer-id-1324387' id='answer-label-1324387' class=' answer'><span>average_gate_fidelity will be 1.0 and  process_fidelity will be 0.5<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338576[]' id='answer-id-1324388' class='answer   answerof-338576 ' value='1324388'   \/><label for='answer-id-1324388' id='answer-label-1324388' class=' answer'><span>average_gate_fidelity will be 1.0 and  process_fidelity will be 1.0<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338576[]' id='answer-id-1324389' class='answer   answerof-338576 ' value='1324389'   \/><label for='answer-id-1324389' id='answer-label-1324389' class=' answer'><span>average_gate_fidelity will be 0 and  process_fidelity will be 0.5<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-53' style=';'><div id='questionWrap-53'  class='   watupro-question-id-338577'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>53. <\/span>Which of the following commands will result in |i&gt; basis state? <br \/>\r<br>i.e. |i&gt; = 1\/ \u221a 2(|0 &#9002; +i|1 &#9002; )<\/div><input type='hidden' name='question_id[]' id='qID_53' value='338577' \/><input type='hidden' id='answerType338577' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338577[]' id='answer-id-1324390' class='answer   answerof-338577 ' value='1324390'   \/><label for='answer-id-1324390' id='answer-label-1324390' class=' answer'><span>H-gate followed by Z-gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338577[]' id='answer-id-1324391' class='answer   answerof-338577 ' value='1324391'   \/><label for='answer-id-1324391' id='answer-label-1324391' class=' answer'><span>Z-gate followed by H-gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338577[]' id='answer-id-1324392' class='answer   answerof-338577 ' value='1324392'   \/><label for='answer-id-1324392' id='answer-label-1324392' class=' answer'><span>H-gate followed by S-gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338577[]' id='answer-id-1324393' class='answer   answerof-338577 ' value='1324393'   \/><label for='answer-id-1324393' id='answer-label-1324393' class=' answer'><span>H-gate followed by Y-gate<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-54' style=';'><div id='questionWrap-54'  class='   watupro-question-id-338578'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>54. <\/span>What is barrier instruction between the H-gates in the below quantum circuit do? <br \/>\r<br><br><img decoding=\"async\" width=160 height=46 id=\"\u56fe\u7247 115\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image024-5.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_54' value='338578' \/><input type='hidden' id='answerType338578' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338578[]' id='answer-id-1324394' class='answer   answerof-338578 ' value='1324394'   \/><label for='answer-id-1324394' id='answer-label-1324394' class=' answer'><span>It joins both H-gates and executes them.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338578[]' id='answer-id-1324395' class='answer   answerof-338578 ' value='1324395'   \/><label for='answer-id-1324395' id='answer-label-1324395' class=' answer'><span>It won't simplify the circuit between the two H-gates<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338578[]' id='answer-id-1324396' class='answer   answerof-338578 ' value='1324396'   \/><label for='answer-id-1324396' id='answer-label-1324396' class=' answer'><span>It is used for better circuit visualization<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338578[]' id='answer-id-1324397' class='answer   answerof-338578 ' value='1324397'   \/><label for='answer-id-1324397' id='answer-label-1324397' class=' answer'><span>It is used for circuit optimization<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-55' style=';'><div id='questionWrap-55'  class='   watupro-question-id-338579'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>55. <\/span>What does the Bloch sphere represent in quantum computing?<\/div><input type='hidden' name='question_id[]' id='qID_55' value='338579' \/><input type='hidden' id='answerType338579' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338579[]' id='answer-id-1324398' class='answer   answerof-338579 ' value='1324398'   \/><label for='answer-id-1324398' id='answer-label-1324398' class=' answer'><span>A visual representation of a qubit's state<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338579[]' id='answer-id-1324399' class='answer   answerof-338579 ' value='1324399'   \/><label for='answer-id-1324399' id='answer-label-1324399' class=' answer'><span>A quantum error correction technique<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338579[]' id='answer-id-1324400' class='answer   answerof-338579 ' value='1324400'   \/><label for='answer-id-1324400' id='answer-label-1324400' class=' answer'><span>A type of quantum algorithm<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338579[]' id='answer-id-1324401' class='answer   answerof-338579 ' value='1324401'   \/><label for='answer-id-1324401' id='answer-label-1324401' class=' answer'><span>A quantum encryption method<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-56' style=';'><div id='questionWrap-56'  class='   watupro-question-id-338580'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>56. <\/span>What is the primary function of the Aer provider in Qiskit?<\/div><input type='hidden' name='question_id[]' id='qID_56' value='338580' \/><input type='hidden' id='answerType338580' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338580[]' id='answer-id-1324402' class='answer   answerof-338580 ' value='1324402'   \/><label for='answer-id-1324402' id='answer-label-1324402' class=' answer'><span>Visualizing quantum circuits<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338580[]' id='answer-id-1324403' class='answer   answerof-338580 ' value='1324403'   \/><label for='answer-id-1324403' id='answer-label-1324403' class=' answer'><span>Providing access to quantum devices<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338580[]' id='answer-id-1324404' class='answer   answerof-338580 ' value='1324404'   \/><label for='answer-id-1324404' id='answer-label-1324404' class=' answer'><span>Offering quantum algorithmic solutions<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338580[]' id='answer-id-1324405' class='answer   answerof-338580 ' value='1324405'   \/><label for='answer-id-1324405' id='answer-label-1324405' class=' answer'><span>Supplying high-performance quantum simulators<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-57' style=';'><div id='questionWrap-57'  class='   watupro-question-id-338581'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>57. <\/span>Which Python package provides BasicAer simulators in Qiskit?<\/div><input type='hidden' name='question_id[]' id='qID_57' value='338581' \/><input type='hidden' id='answerType338581' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338581[]' id='answer-id-1324406' class='answer   answerof-338581 ' value='1324406'   \/><label for='answer-id-1324406' id='answer-label-1324406' class=' answer'><span>qiskit.quantum<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338581[]' id='answer-id-1324407' class='answer   answerof-338581 ' value='1324407'   \/><label for='answer-id-1324407' id='answer-label-1324407' class=' answer'><span>qiskit.aer<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338581[]' id='answer-id-1324408' class='answer   answerof-338581 ' value='1324408'   \/><label for='answer-id-1324408' id='answer-label-1324408' class=' answer'><span>qiskit.tools<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338581[]' id='answer-id-1324409' class='answer   answerof-338581 ' value='1324409'   \/><label for='answer-id-1324409' id='answer-label-1324409' class=' answer'><span>qiskit.sim<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-58' style=';'><div id='questionWrap-58'  class='   watupro-question-id-338582'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>58. <\/span>Which of the following missing statement return the depth of the following quantum circuit? <br \/>\r<br>q = QuantumRegister(3) <br \/>\r<br>c = ClassicalRegister(3) <br \/>\r<br>qc = QuantumCircuit(q,c) <br \/>\r<br>qc.h(q[0:3]) <br \/>\r<br>qc.x(q[0:3]) <br \/>\r<br>qc.z(q[0:3]) <br \/>\r<br>qc.draw(output='mpl') <br \/>\r<br><br><img decoding=\"async\" width=269 height=184 id=\"\u56fe\u7247 114\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image025-5.jpg\"><br><br \/>\r<br>### missing statement to return the depth of the circuit<\/div><input type='hidden' name='question_id[]' id='qID_58' value='338582' \/><input type='hidden' id='answerType338582' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338582[]' id='answer-id-1324410' class='answer   answerof-338582 ' value='1324410'   \/><label for='answer-id-1324410' id='answer-label-1324410' class=' answer'><span>qc.size()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338582[]' id='answer-id-1324411' class='answer   answerof-338582 ' value='1324411'   \/><label for='answer-id-1324411' id='answer-label-1324411' class=' answer'><span>qc.path()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338582[]' id='answer-id-1324412' class='answer   answerof-338582 ' value='1324412'   \/><label for='answer-id-1324412' id='answer-label-1324412' class=' answer'><span>qc.depth()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338582[]' id='answer-id-1324413' class='answer   answerof-338582 ' value='1324413'   \/><label for='answer-id-1324413' id='answer-label-1324413' class=' answer'><span>qc.depth_display()<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-59' style=';'><div id='questionWrap-59'  class='   watupro-question-id-338583'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>59. <\/span>What does the quantum operation SWAP do?<\/div><input type='hidden' name='question_id[]' id='qID_59' value='338583' \/><input type='hidden' id='answerType338583' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338583[]' id='answer-id-1324414' class='answer   answerof-338583 ' value='1324414'   \/><label for='answer-id-1324414' id='answer-label-1324414' class=' answer'><span>Exchanges the phase of qubits<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338583[]' id='answer-id-1324415' class='answer   answerof-338583 ' value='1324415'   \/><label for='answer-id-1324415' id='answer-label-1324415' class=' answer'><span>Exchanges the amplitudes of qubits<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338583[]' id='answer-id-1324416' class='answer   answerof-338583 ' value='1324416'   \/><label for='answer-id-1324416' id='answer-label-1324416' class=' answer'><span>Exchanges the states of two qubits<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338583[]' id='answer-id-1324417' class='answer   answerof-338583 ' value='1324417'   \/><label for='answer-id-1324417' id='answer-label-1324417' class=' answer'><span>Implements quantum error correction<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-60' style=';'><div id='questionWrap-60'  class='   watupro-question-id-338584'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>60. <\/span>What is the output of the result in the below snippet? <br \/>\r<br>ghz = QuantumCircuit(3) <br \/>\r<br>ghz.x(0) <br \/>\r<br>ghz.h(0) <br \/>\r<br>ghz.cx([0,0],[1,2]) <br \/>\r<br>ghz.measure_all() <br \/>\r<br>backend_qasm = BasicAer.get_backend('qasm_simulator') <br \/>\r<br>job = execute(ghz, backend_qasm,shots=1024) <br \/>\r<br>result = job.result().get_counts()<\/div><input type='hidden' name='question_id[]' id='qID_60' value='338584' \/><input type='hidden' id='answerType338584' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338584[]' id='answer-id-1324418' class='answer   answerof-338584 ' value='1324418'   \/><label for='answer-id-1324418' id='answer-label-1324418' class=' answer'><span>{'111': 300, '000': 724}<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338584[]' id='answer-id-1324419' class='answer   answerof-338584 ' value='1324419'   \/><label for='answer-id-1324419' id='answer-label-1324419' class=' answer'><span>{'100': 514, '010': 510}<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338584[]' id='answer-id-1324420' class='answer   answerof-338584 ' value='1324420'   \/><label for='answer-id-1324420' id='answer-label-1324420' class=' answer'><span>{'100': 253, '010': 261, '111': 253, '000': 261}<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338584[]' id='answer-id-1324421' class='answer   answerof-338584 ' value='1324421'   \/><label for='answer-id-1324421' id='answer-label-1324421' class=' answer'><span>{'000': 512, '111':512}<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-61' style=';'><div id='questionWrap-61'  class='   watupro-question-id-338585'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>61. <\/span>In a quantum circuit, what does applying a controlled-U gate mean?<\/div><input type='hidden' name='question_id[]' id='qID_61' value='338585' \/><input type='hidden' id='answerType338585' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338585[]' id='answer-id-1324422' class='answer   answerof-338585 ' value='1324422'   \/><label for='answer-id-1324422' id='answer-label-1324422' class=' answer'><span>Applying an unknown quantum operation<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338585[]' id='answer-id-1324423' class='answer   answerof-338585 ' value='1324423'   \/><label for='answer-id-1324423' id='answer-label-1324423' class=' answer'><span>Applying a controlled phase shift operation<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338585[]' id='answer-id-1324424' class='answer   answerof-338585 ' value='1324424'   \/><label for='answer-id-1324424' id='answer-label-1324424' class=' answer'><span>Performing an unconditional operation on a qubit<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338585[]' id='answer-id-1324425' class='answer   answerof-338585 ' value='1324425'   \/><label for='answer-id-1324425' id='answer-label-1324425' class=' answer'><span>Implementing a controlled NOT operation<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-62' style=';'><div id='questionWrap-62'  class='   watupro-question-id-338586'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>62. <\/span>Which of the following bloch_multivector plot options given below is the correct one for the given bell quantum circuit? <br \/>\r<br>bell = QuantumCircuit(2) <br \/>\r<br>bell.h(0) <br \/>\r<br>bell.cx(0,1) <br \/>\r<br>A) <br \/>\r<br><br><img decoding=\"async\" width=447 height=223 id=\"\u56fe\u7247 113\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image026-5.jpg\"><br><br \/>\r<br>B) <br \/>\r<br><br><img decoding=\"async\" width=447 height=223 id=\"\u56fe\u7247 112\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image027-5.jpg\"><br><br \/>\r<br>C) <br \/>\r<br><br><img decoding=\"async\" width=447 height=223 id=\"\u56fe\u7247 111\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image028-4.jpg\"><br><br \/>\r<br>D) <br \/>\r<br><br><img decoding=\"async\" width=447 height=223 id=\"\u56fe\u7247 110\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image029-4.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_62' value='338586' \/><input type='hidden' id='answerType338586' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338586[]' id='answer-id-1324426' class='answer   answerof-338586 ' value='1324426'   \/><label for='answer-id-1324426' id='answer-label-1324426' class=' answer'><span>Option A<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338586[]' id='answer-id-1324427' class='answer   answerof-338586 ' value='1324427'   \/><label for='answer-id-1324427' id='answer-label-1324427' class=' answer'><span>Option B<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338586[]' id='answer-id-1324428' class='answer   answerof-338586 ' value='1324428'   \/><label for='answer-id-1324428' id='answer-label-1324428' class=' answer'><span>Option C<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338586[]' id='answer-id-1324429' class='answer   answerof-338586 ' value='1324429'   \/><label for='answer-id-1324429' id='answer-label-1324429' class=' answer'><span>Option D<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-63' style=';'><div id='questionWrap-63'  class='   watupro-question-id-338587'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>63. <\/span>What is the command used to retrieve the last run job from a backend?<\/div><input type='hidden' name='question_id[]' id='qID_63' value='338587' \/><input type='hidden' id='answerType338587' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338587[]' id='answer-id-1324430' class='answer   answerof-338587 ' value='1324430'   \/><label for='answer-id-1324430' id='answer-label-1324430' class=' answer'><span>backend.jobs()[0]<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338587[]' id='answer-id-1324431' class='answer   answerof-338587 ' value='1324431'   \/><label for='answer-id-1324431' id='answer-label-1324431' class=' answer'><span>backend.jobs()[-1]<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338587[]' id='answer-id-1324432' class='answer   answerof-338587 ' value='1324432'   \/><label for='answer-id-1324432' id='answer-label-1324432' class=' answer'><span>backend.retrieve_job()[0]<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338587[]' id='answer-id-1324433' class='answer   answerof-338587 ' value='1324433'   \/><label for='answer-id-1324433' id='answer-label-1324433' class=' answer'><span>backend.retrieve_job()[1]<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-64' style=';'><div id='questionWrap-64'  class='   watupro-question-id-338588'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>64. <\/span>Which of these would execute a circuit on a set of qubits which are coupled in a custom way? <br \/>\r<br>from qiskit import QuantumCircuit, execute, BasicAer <br \/>\r<br>backend = BasicAer.get_backend('qasm_simulator') <br \/>\r<br>qc = QuantumCircuit(2) <br \/>\r<br># insert code here<\/div><input type='hidden' name='question_id[]' id='qID_64' value='338588' \/><input type='hidden' id='answerType338588' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338588[]' id='answer-id-1324434' class='answer   answerof-338588 ' value='1324434'   \/><label for='answer-id-1324434' id='answer-label-1324434' class=' answer'><span>execute(qc, backend, shots=1024, coupling_map=[[0,1], [1,2]])<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338588[]' id='answer-id-1324435' class='answer   answerof-338588 ' value='1324435'   \/><label for='answer-id-1324435' id='answer-label-1324435' class=' answer'><span>execute(qc, backend, shots=1024, custom_topology=[[0,1],[2,3]]<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338588[]' id='answer-id-1324436' class='answer   answerof-338588 ' value='1324436'   \/><label for='answer-id-1324436' id='answer-label-1324436' class=' answer'><span>execute (qc, backend, mode=&quot;custom&quot;)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338588[]' id='answer-id-1324437' class='answer   answerof-338588 ' value='1324437'   \/><label for='answer-id-1324437' id='answer-label-1324437' class=' answer'><span>execute(qc, backend, shots=1024, device=&quot;qasm_simulator&quot;, mode=&quot;custom&quot;)<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-65' style=';'><div id='questionWrap-65'  class='   watupro-question-id-338589'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>65. <\/span>What is the purpose of executing a quantum experiment on a simulator?<\/div><input type='hidden' name='question_id[]' id='qID_65' value='338589' \/><input type='hidden' id='answerType338589' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338589[]' id='answer-id-1324438' class='answer   answerof-338589 ' value='1324438'   \/><label for='answer-id-1324438' id='answer-label-1324438' class=' answer'><span>To study the behavior of classical algorithms<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338589[]' id='answer-id-1324439' class='answer   answerof-338589 ' value='1324439'   \/><label for='answer-id-1324439' id='answer-label-1324439' class=' answer'><span>To validate quantum algorithms using classical computing resources<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338589[]' id='answer-id-1324440' class='answer   answerof-338589 ' value='1324440'   \/><label for='answer-id-1324440' id='answer-label-1324440' class=' answer'><span>To measure the performance of quantum hardware<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338589[]' id='answer-id-1324441' class='answer   answerof-338589 ' value='1324441'   \/><label for='answer-id-1324441' id='answer-label-1324441' class=' answer'><span>To generate random numbers efficiently<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-66' style=';'><div id='questionWrap-66'  class='   watupro-question-id-338590'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>66. <\/span>In our quantum circuit, we have a single qubit. and it is initialized to |0 &#9002; state. <br \/>\r<br>Which of the following quantum gates operation gives the same output state |0 &#9002; ? (select any 3)<\/div><input type='hidden' name='question_id[]' id='qID_66' value='338590' \/><input type='hidden' id='answerType338590' value='checkbox'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338590[]' id='answer-id-1324442' class='answer   answerof-338590 ' value='1324442'   \/><label for='answer-id-1324442' id='answer-label-1324442' class=' answer'><span>S<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338590[]' id='answer-id-1324443' class='answer   answerof-338590 ' value='1324443'   \/><label for='answer-id-1324443' id='answer-label-1324443' class=' answer'><span>T<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338590[]' id='answer-id-1324444' class='answer   answerof-338590 ' value='1324444'   \/><label for='answer-id-1324444' id='answer-label-1324444' class=' answer'><span>HSH<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338590[]' id='answer-id-1324445' class='answer   answerof-338590 ' value='1324445'   \/><label for='answer-id-1324445' id='answer-label-1324445' class=' answer'><span>HYH<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338590[]' id='answer-id-1324446' class='answer   answerof-338590 ' value='1324446'   \/><label for='answer-id-1324446' id='answer-label-1324446' class=' answer'><span>I<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338590[]' id='answer-id-1324447' class='answer   answerof-338590 ' value='1324447'   \/><label for='answer-id-1324447' id='answer-label-1324447' class=' answer'><span>HZH<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-67' style=';'><div id='questionWrap-67'  class='   watupro-question-id-338591'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>67. <\/span>Which quantum algorithm is commonly used to find factors of large composite numbers efficiently?<\/div><input type='hidden' name='question_id[]' id='qID_67' value='338591' \/><input type='hidden' id='answerType338591' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338591[]' id='answer-id-1324448' class='answer   answerof-338591 ' value='1324448'   \/><label for='answer-id-1324448' id='answer-label-1324448' class=' answer'><span>Grover's algorithm<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338591[]' id='answer-id-1324449' class='answer   answerof-338591 ' value='1324449'   \/><label for='answer-id-1324449' id='answer-label-1324449' class=' answer'><span>Shor's algorithm<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338591[]' id='answer-id-1324450' class='answer   answerof-338591 ' value='1324450'   \/><label for='answer-id-1324450' id='answer-label-1324450' class=' answer'><span>Bernstein-Vazirani algorithm<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338591[]' id='answer-id-1324451' class='answer   answerof-338591 ' value='1324451'   \/><label for='answer-id-1324451' id='answer-label-1324451' class=' answer'><span>Deutsch-Jozsa algorithm<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-68' style=';'><div id='questionWrap-68'  class='   watupro-question-id-338592'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>68. <\/span>Given this code, which two inserted code fragments result in the state vector represented by this Bloch sphere? <br \/>\r<br>qc = QuantumCircuit(1,1) <br \/>\r<br># Insert code fragment here <br \/>\r<br>simulator = Aer.get_backend('statevector_simulator') <br \/>\r<br>job = execute(qc, simulator) <br \/>\r<br>result = job.result() <br \/>\r<br>outputstate = result.get_statevector(qc) <br \/>\r<br>plot_bloch_multivector(outputstate) <br \/>\r<br><br><img decoding=\"async\" width=422 height=498 id=\"\u56fe\u7247 109\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image030-5.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_68' value='338592' \/><input type='hidden' id='answerType338592' value='checkbox'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338592[]' id='answer-id-1324452' class='answer   answerof-338592 ' value='1324452'   \/><label for='answer-id-1324452' id='answer-label-1324452' class=' answer'><span>qc.h(0)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338592[]' id='answer-id-1324453' class='answer   answerof-338592 ' value='1324453'   \/><label for='answer-id-1324453' id='answer-label-1324453' class=' answer'><span>qc.rx(math.pi \/ 2, 0)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338592[]' id='answer-id-1324454' class='answer   answerof-338592 ' value='1324454'   \/><label for='answer-id-1324454' id='answer-label-1324454' class=' answer'><span>qc.ry(math.pi \/ 2, 0)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338592[]' id='answer-id-1324455' class='answer   answerof-338592 ' value='1324455'   \/><label for='answer-id-1324455' id='answer-label-1324455' class=' answer'><span>qc.rx(math.pi \/ 2, 0) \r\nqc.rz(-math.pi \/ 2, 0)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338592[]' id='answer-id-1324456' class='answer   answerof-338592 ' value='1324456'   \/><label for='answer-id-1324456' id='answer-label-1324456' class=' answer'><span>qc.ry(math.pi, 0)<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-69' style=';'><div id='questionWrap-69'  class='   watupro-question-id-338593'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>69. <\/span>Which of the following bloch_multivector plot options given below is the correct one for the given bell quantum circuit? <br \/>\r<br>qc = QuantumCircuit(2) <br \/>\r<br>qc.x(0) <br \/>\r<br>qc.h(0) <br \/>\r<br>qc.h(1) <br \/>\r<br>A) <br \/>\r<br><br><img decoding=\"async\" width=447 height=223 id=\"\u56fe\u7247 108\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image026-6.jpg\"><br><br \/>\r<br>B) <br \/>\r<br><br><img decoding=\"async\" width=447 height=223 id=\"\u56fe\u7247 107\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image027-6.jpg\"><br><br \/>\r<br>C) <br \/>\r<br><br><img decoding=\"async\" width=447 height=223 id=\"\u56fe\u7247 106\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image031-6.jpg\"><br><br \/>\r<br>D) <br \/>\r<br><br><img decoding=\"async\" width=447 height=223 id=\"\u56fe\u7247 105\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image032-5.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_69' value='338593' \/><input type='hidden' id='answerType338593' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338593[]' id='answer-id-1324457' class='answer   answerof-338593 ' value='1324457'   \/><label for='answer-id-1324457' id='answer-label-1324457' class=' answer'><span>Option A<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338593[]' id='answer-id-1324458' class='answer   answerof-338593 ' value='1324458'   \/><label for='answer-id-1324458' id='answer-label-1324458' class=' answer'><span>Option B<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338593[]' id='answer-id-1324459' class='answer   answerof-338593 ' value='1324459'   \/><label for='answer-id-1324459' id='answer-label-1324459' class=' answer'><span>Option C<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338593[]' id='answer-id-1324460' class='answer   answerof-338593 ' value='1324460'   \/><label for='answer-id-1324460' id='answer-label-1324460' class=' answer'><span>Option D<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-70' style=';'><div id='questionWrap-70'  class='   watupro-question-id-338594'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>70. <\/span>Which two options would place a barrier across all qubits to the QuantumCircuit below? <br \/>\r<br>qc = QuantumCircuit(3,3)<\/div><input type='hidden' name='question_id[]' id='qID_70' value='338594' \/><input type='hidden' id='answerType338594' value='checkbox'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338594[]' id='answer-id-1324461' class='answer   answerof-338594 ' value='1324461'   \/><label for='answer-id-1324461' id='answer-label-1324461' class=' answer'><span>qc.barrier(qc)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338594[]' id='answer-id-1324462' class='answer   answerof-338594 ' value='1324462'   \/><label for='answer-id-1324462' id='answer-label-1324462' class=' answer'><span>qc.barrier([0,1,2])<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338594[]' id='answer-id-1324463' class='answer   answerof-338594 ' value='1324463'   \/><label for='answer-id-1324463' id='answer-label-1324463' class=' answer'><span>qc.barrier()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338594[]' id='answer-id-1324464' class='answer   answerof-338594 ' value='1324464'   \/><label for='answer-id-1324464' id='answer-label-1324464' class=' answer'><span>qc.barrier(3)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338594[]' id='answer-id-1324465' class='answer   answerof-338594 ' value='1324465'   \/><label for='answer-id-1324465' id='answer-label-1324465' class=' answer'><span>qc.barrier_all()<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-71' style=';'><div id='questionWrap-71'  class='   watupro-question-id-338595'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>71. <\/span>What characteristic of quantum information poses a challenge to traditional cryptography systems?<\/div><input type='hidden' name='question_id[]' id='qID_71' value='338595' \/><input type='hidden' id='answerType338595' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338595[]' id='answer-id-1324466' class='answer   answerof-338595 ' value='1324466'   \/><label for='answer-id-1324466' id='answer-label-1324466' class=' answer'><span>High error rates in quantum systems<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338595[]' id='answer-id-1324467' class='answer   answerof-338595 ' value='1324467'   \/><label for='answer-id-1324467' id='answer-label-1324467' class=' answer'><span>Quantum tunneling effect<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338595[]' id='answer-id-1324468' class='answer   answerof-338595 ' value='1324468'   \/><label for='answer-id-1324468' id='answer-label-1324468' class=' answer'><span>Quantum superposition<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338595[]' id='answer-id-1324469' class='answer   answerof-338595 ' value='1324469'   \/><label for='answer-id-1324469' id='answer-label-1324469' class=' answer'><span>Quantum entanglement<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-72' style=';'><div id='questionWrap-72'  class='   watupro-question-id-338596'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>72. <\/span>What is the advantage of using the Aer provider's simulators over real quantum hardware?<\/div><input type='hidden' name='question_id[]' id='qID_72' value='338596' \/><input type='hidden' id='answerType338596' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338596[]' id='answer-id-1324470' class='answer   answerof-338596 ' value='1324470'   \/><label for='answer-id-1324470' id='answer-label-1324470' class=' answer'><span>Simulators provide faster execution times<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338596[]' id='answer-id-1324471' class='answer   answerof-338596 ' value='1324471'   \/><label for='answer-id-1324471' id='answer-label-1324471' class=' answer'><span>Real hardware offers higher accuracy in results<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338596[]' id='answer-id-1324472' class='answer   answerof-338596 ' value='1324472'   \/><label for='answer-id-1324472' id='answer-label-1324472' class=' answer'><span>Simulators allow for larger qubit capacities<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338596[]' id='answer-id-1324473' class='answer   answerof-338596 ' value='1324473'   \/><label for='answer-id-1324473' id='answer-label-1324473' class=' answer'><span>Real hardware ensures better noise reduction<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-73' style=';'><div id='questionWrap-73'  class='   watupro-question-id-338597'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>73. <\/span>In quantum computing, what does the term &quot;quantum supremacy&quot; refer to?<\/div><input type='hidden' name='question_id[]' id='qID_73' value='338597' \/><input type='hidden' id='answerType338597' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338597[]' id='answer-id-1324474' class='answer   answerof-338597 ' value='1324474'   \/><label for='answer-id-1324474' id='answer-label-1324474' class=' answer'><span>Achieving ultimate quantum error correction<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338597[]' id='answer-id-1324475' class='answer   answerof-338597 ' value='1324475'   \/><label for='answer-id-1324475' id='answer-label-1324475' class=' answer'><span>Superior speed of quantum computers over classical ones<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338597[]' id='answer-id-1324476' class='answer   answerof-338597 ' value='1324476'   \/><label for='answer-id-1324476' id='answer-label-1324476' class=' answer'><span>Ability to create quantum entanglement<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338597[]' id='answer-id-1324477' class='answer   answerof-338597 ' value='1324477'   \/><label for='answer-id-1324477' id='answer-label-1324477' class=' answer'><span>Advanced quantum cryptography techniques<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-74' style=';'><div id='questionWrap-74'  class='   watupro-question-id-338598'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>74. <\/span>Which kind of quantum simulation does the Aer provider primarily offer?<\/div><input type='hidden' name='question_id[]' id='qID_74' value='338598' \/><input type='hidden' id='answerType338598' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338598[]' id='answer-id-1324478' class='answer   answerof-338598 ' value='1324478'   \/><label for='answer-id-1324478' id='answer-label-1324478' class=' answer'><span>Classical bit-level simulation<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338598[]' id='answer-id-1324479' class='answer   answerof-338598 ' value='1324479'   \/><label for='answer-id-1324479' id='answer-label-1324479' class=' answer'><span>Ideal, noise-free quantum circuit simulation<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338598[]' id='answer-id-1324480' class='answer   answerof-338598 ' value='1324480'   \/><label for='answer-id-1324480' id='answer-label-1324480' class=' answer'><span>Simulation of quantum entanglement states<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338598[]' id='answer-id-1324481' class='answer   answerof-338598 ' value='1324481'   \/><label for='answer-id-1324481' id='answer-label-1324481' class=' answer'><span>High-level programming language simulations<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-75' style=';'><div id='questionWrap-75'  class='   watupro-question-id-338599'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>75. <\/span>Which three simulators are available in BasicAer?<\/div><input type='hidden' name='question_id[]' id='qID_75' value='338599' \/><input type='hidden' id='answerType338599' value='checkbox'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338599[]' id='answer-id-1324482' class='answer   answerof-338599 ' value='1324482'   \/><label for='answer-id-1324482' id='answer-label-1324482' class=' answer'><span>qasm_simulator<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338599[]' id='answer-id-1324483' class='answer   answerof-338599 ' value='1324483'   \/><label for='answer-id-1324483' id='answer-label-1324483' class=' answer'><span>basic_qasm_simulator<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338599[]' id='answer-id-1324484' class='answer   answerof-338599 ' value='1324484'   \/><label for='answer-id-1324484' id='answer-label-1324484' class=' answer'><span>statevector_simulator<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338599[]' id='answer-id-1324485' class='answer   answerof-338599 ' value='1324485'   \/><label for='answer-id-1324485' id='answer-label-1324485' class=' answer'><span>unitary_simulator<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338599[]' id='answer-id-1324486' class='answer   answerof-338599 ' value='1324486'   \/><label for='answer-id-1324486' id='answer-label-1324486' class=' answer'><span>quantum_simulator<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338599[]' id='answer-id-1324487' class='answer   answerof-338599 ' value='1324487'   \/><label for='answer-id-1324487' id='answer-label-1324487' class=' answer'><span>quantum_circuit_simulator<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-76' style=';'><div id='questionWrap-76'  class='   watupro-question-id-338600'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>76. <\/span>What is the fundamental principle behind quantum teleportation?<\/div><input type='hidden' name='question_id[]' id='qID_76' value='338600' \/><input type='hidden' id='answerType338600' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338600[]' id='answer-id-1324488' class='answer   answerof-338600 ' value='1324488'   \/><label for='answer-id-1324488' id='answer-label-1324488' class=' answer'><span>Instantaneous transfer of quantum information<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338600[]' id='answer-id-1324489' class='answer   answerof-338600 ' value='1324489'   \/><label for='answer-id-1324489' id='answer-label-1324489' class=' answer'><span>Replication of quantum states<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338600[]' id='answer-id-1324490' class='answer   answerof-338600 ' value='1324490'   \/><label for='answer-id-1324490' id='answer-label-1324490' class=' answer'><span>Movement of qubits through a quantum network<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338600[]' id='answer-id-1324491' class='answer   answerof-338600 ' value='1324491'   \/><label for='answer-id-1324491' id='answer-label-1324491' class=' answer'><span>Transfer of quantum information without physically moving the qubits<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-77' style=';'><div id='questionWrap-77'  class='   watupro-question-id-338601'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>77. <\/span>Which command is used to get the version of qiskit packages and the system information of the system?<\/div><input type='hidden' name='question_id[]' id='qID_77' value='338601' \/><input type='hidden' id='answerType338601' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338601[]' id='answer-id-1324492' class='answer   answerof-338601 ' value='1324492'   \/><label for='answer-id-1324492' id='answer-label-1324492' class=' answer'><span>print(qiskit_version)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338601[]' id='answer-id-1324493' class='answer   answerof-338601 ' value='1324493'   \/><label for='answer-id-1324493' id='answer-label-1324493' class=' answer'><span>print(qiskit.__qiskit_version__)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338601[]' id='answer-id-1324494' class='answer   answerof-338601 ' value='1324494'   \/><label for='answer-id-1324494' id='answer-label-1324494' class=' answer'><span>print(__version__)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338601[]' id='answer-id-1324495' class='answer   answerof-338601 ' value='1324495'   \/><label for='answer-id-1324495' id='answer-label-1324495' class=' answer'><span>print(qiskit.__version__)<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-78' style=';'><div id='questionWrap-78'  class='   watupro-question-id-338602'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>78. <\/span>Which gate is used to perform a controlled phase shift on a qubit, conditioned on the state of another qubit?<\/div><input type='hidden' name='question_id[]' id='qID_78' value='338602' \/><input type='hidden' id='answerType338602' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338602[]' id='answer-id-1324496' class='answer   answerof-338602 ' value='1324496'   \/><label for='answer-id-1324496' id='answer-label-1324496' class=' answer'><span>T gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338602[]' id='answer-id-1324497' class='answer   answerof-338602 ' value='1324497'   \/><label for='answer-id-1324497' id='answer-label-1324497' class=' answer'><span>Pauli-Z gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338602[]' id='answer-id-1324498' class='answer   answerof-338602 ' value='1324498'   \/><label for='answer-id-1324498' id='answer-label-1324498' class=' answer'><span>Phase gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338602[]' id='answer-id-1324499' class='answer   answerof-338602 ' value='1324499'   \/><label for='answer-id-1324499' id='answer-label-1324499' class=' answer'><span>Controlled-S gate<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-79' style=';'><div id='questionWrap-79'  class='   watupro-question-id-338603'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>79. <\/span>Which quantum gate is similar to classical NOT gate?<\/div><input type='hidden' name='question_id[]' id='qID_79' value='338603' \/><input type='hidden' id='answerType338603' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338603[]' id='answer-id-1324500' class='answer   answerof-338603 ' value='1324500'   \/><label for='answer-id-1324500' id='answer-label-1324500' class=' answer'><span>X gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338603[]' id='answer-id-1324501' class='answer   answerof-338603 ' value='1324501'   \/><label for='answer-id-1324501' id='answer-label-1324501' class=' answer'><span>Hadamard gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338603[]' id='answer-id-1324502' class='answer   answerof-338603 ' value='1324502'   \/><label for='answer-id-1324502' id='answer-label-1324502' class=' answer'><span>Y gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338603[]' id='answer-id-1324503' class='answer   answerof-338603 ' value='1324503'   \/><label for='answer-id-1324503' id='answer-label-1324503' class=' answer'><span>CNOT gate<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-80' style=';'><div id='questionWrap-80'  class='   watupro-question-id-338604'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>80. <\/span>Which one of the below is the noisy quantum circuit simulator backend?<\/div><input type='hidden' name='question_id[]' id='qID_80' value='338604' \/><input type='hidden' id='answerType338604' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338604[]' id='answer-id-1324504' class='answer   answerof-338604 ' value='1324504'   \/><label for='answer-id-1324504' id='answer-label-1324504' class=' answer'><span>qasm_simulator<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338604[]' id='answer-id-1324505' class='answer   answerof-338604 ' value='1324505'   \/><label for='answer-id-1324505' id='answer-label-1324505' class=' answer'><span>statevector_simulator<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338604[]' id='answer-id-1324506' class='answer   answerof-338604 ' value='1324506'   \/><label for='answer-id-1324506' id='answer-label-1324506' class=' answer'><span>qasm_simulator<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338604[]' id='answer-id-1324507' class='answer   answerof-338604 ' value='1324507'   \/><label for='answer-id-1324507' id='answer-label-1324507' class=' answer'><span>Aer_simulator<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-81' style=';'><div id='questionWrap-81'  class='   watupro-question-id-338605'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>81. <\/span>Which quantum gate is equivalent to classical NOT-gate?<\/div><input type='hidden' name='question_id[]' id='qID_81' value='338605' \/><input type='hidden' id='answerType338605' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338605[]' id='answer-id-1324508' class='answer   answerof-338605 ' value='1324508'   \/><label for='answer-id-1324508' id='answer-label-1324508' class=' answer'><span>X-gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338605[]' id='answer-id-1324509' class='answer   answerof-338605 ' value='1324509'   \/><label for='answer-id-1324509' id='answer-label-1324509' class=' answer'><span>Y-gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338605[]' id='answer-id-1324510' class='answer   answerof-338605 ' value='1324510'   \/><label for='answer-id-1324510' id='answer-label-1324510' class=' answer'><span>Z-gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338605[]' id='answer-id-1324511' class='answer   answerof-338605 ' value='1324511'   \/><label for='answer-id-1324511' id='answer-label-1324511' class=' answer'><span>H-gate<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-82' style=';'><div id='questionWrap-82'  class='   watupro-question-id-338606'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>82. <\/span>How does the storage of information differ between classical and quantum systems?<\/div><input type='hidden' name='question_id[]' id='qID_82' value='338606' \/><input type='hidden' id='answerType338606' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338606[]' id='answer-id-1324512' class='answer   answerof-338606 ' value='1324512'   \/><label for='answer-id-1324512' id='answer-label-1324512' class=' answer'><span>Classical systems can store infinite amounts of information<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338606[]' id='answer-id-1324513' class='answer   answerof-338606 ' value='1324513'   \/><label for='answer-id-1324513' id='answer-label-1324513' class=' answer'><span>Quantum systems have limited storage capacity<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338606[]' id='answer-id-1324514' class='answer   answerof-338606 ' value='1324514'   \/><label for='answer-id-1324514' id='answer-label-1324514' class=' answer'><span>Both systems have similar storage capacities<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338606[]' id='answer-id-1324515' class='answer   answerof-338606 ' value='1324515'   \/><label for='answer-id-1324515' id='answer-label-1324515' class=' answer'><span>Quantum systems can store more information due to qubit properties<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-83' style=';'><div id='questionWrap-83'  class='   watupro-question-id-338607'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>83. <\/span>In the given circuit what are the possible ways to measure the quantum register using the classical register? (Select 2) <br \/>\r<br>q = QuantumRegister(3) <br \/>\r<br>c = ClassicalRegiser(3) <br \/>\r<br>qc = QuantumCircuit(q,c) <br \/>\r<br>qc.h(0) <br \/>\r<br>qc.cx(0,1) <br \/>\r<br>qc.cx(0,2) <br \/>\r<br>qc.barrier() <br \/>\r<br><br><img decoding=\"async\" width=350 height=166 id=\"\u56fe\u7247 104\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image033-6.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_83' value='338607' \/><input type='hidden' id='answerType338607' value='checkbox'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338607[]' id='answer-id-1324516' class='answer   answerof-338607 ' value='1324516'   \/><label for='answer-id-1324516' id='answer-label-1324516' class=' answer'><span>qc.measure([0,1,2],[0,1,2])<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338607[]' id='answer-id-1324517' class='answer   answerof-338607 ' value='1324517'   \/><label for='answer-id-1324517' id='answer-label-1324517' class=' answer'><span>qc.measure_all()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338607[]' id='answer-id-1324518' class='answer   answerof-338607 ' value='1324518'   \/><label for='answer-id-1324518' id='answer-label-1324518' class=' answer'><span>qc.measure([0,0],[1,1],[2,2])<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338607[]' id='answer-id-1324519' class='answer   answerof-338607 ' value='1324519'   \/><label for='answer-id-1324519' id='answer-label-1324519' class=' answer'><span>qc.measure(q,c)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338607[]' id='answer-id-1324520' class='answer   answerof-338607 ' value='1324520'   \/><label for='answer-id-1324520' id='answer-label-1324520' class=' answer'><span>qc.measure(0,1,2)<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-84' style=';'><div id='questionWrap-84'  class='   watupro-question-id-338608'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>84. <\/span>Which gate is typically used to reset a qubit's state to |0&gt; in a quantum circuit?<\/div><input type='hidden' name='question_id[]' id='qID_84' value='338608' \/><input type='hidden' id='answerType338608' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338608[]' id='answer-id-1324521' class='answer   answerof-338608 ' value='1324521'   \/><label for='answer-id-1324521' id='answer-label-1324521' class=' answer'><span>T gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338608[]' id='answer-id-1324522' class='answer   answerof-338608 ' value='1324522'   \/><label for='answer-id-1324522' id='answer-label-1324522' class=' answer'><span>Reset gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338608[]' id='answer-id-1324523' class='answer   answerof-338608 ' value='1324523'   \/><label for='answer-id-1324523' id='answer-label-1324523' class=' answer'><span>Pauli-Z gate<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338608[]' id='answer-id-1324524' class='answer   answerof-338608 ' value='1324524'   \/><label for='answer-id-1324524' id='answer-label-1324524' class=' answer'><span>Hadamard gate<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-85' style=';'><div id='questionWrap-85'  class='   watupro-question-id-338609'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>85. <\/span>Which aspect of quantum circuits does Qasm primarily focus on?<\/div><input type='hidden' name='question_id[]' id='qID_85' value='338609' \/><input type='hidden' id='answerType338609' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338609[]' id='answer-id-1324525' class='answer   answerof-338609 ' value='1324525'   \/><label for='answer-id-1324525' id='answer-label-1324525' class=' answer'><span>Handling classical data operations<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338609[]' id='answer-id-1324526' class='answer   answerof-338609 ' value='1324526'   \/><label for='answer-id-1324526' id='answer-label-1324526' class=' answer'><span>Managing quantum error correction<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338609[]' id='answer-id-1324527' class='answer   answerof-338609 ' value='1324527'   \/><label for='answer-id-1324527' id='answer-label-1324527' class=' answer'><span>Describing quantum gate sequences and qubit operations<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338609[]' id='answer-id-1324528' class='answer   answerof-338609 ' value='1324528'   \/><label for='answer-id-1324528' id='answer-label-1324528' class=' answer'><span>Visualizing qubit states<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-86' style=';'><div id='questionWrap-86'  class='   watupro-question-id-338610'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>86. <\/span>Which of the following statement will convert the below qasm file to a Quantum circuit qc? <br \/>\r<br>myfile.qasm <br \/>\r<br>OPENQASM 2.0; <br \/>\r<br>include &quot;qelib1.inc&quot;; <br \/>\r<br>qreg q[2]; <br \/>\r<br>h q[0]; <br \/>\r<br>h q[1]; <br \/>\r<br>s q[0]; <br \/>\r<br>s q[1];<\/div><input type='hidden' name='question_id[]' id='qID_86' value='338610' \/><input type='hidden' id='answerType338610' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338610[]' id='answer-id-1324529' class='answer   answerof-338610 ' value='1324529'   \/><label for='answer-id-1324529' id='answer-label-1324529' class=' answer'><span>qc = QuantumCircuit.from_file('myfile.qasm')<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338610[]' id='answer-id-1324530' class='answer   answerof-338610 ' value='1324530'   \/><label for='answer-id-1324530' id='answer-label-1324530' class=' answer'><span>qc = QuantumCircuit.from_qasm_file('myfile.qasm')<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338610[]' id='answer-id-1324531' class='answer   answerof-338610 ' value='1324531'   \/><label for='answer-id-1324531' id='answer-label-1324531' class=' answer'><span>qc = QuantumCircuit.read('myfile.qasm')<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338610[]' id='answer-id-1324532' class='answer   answerof-338610 ' value='1324532'   \/><label for='answer-id-1324532' id='answer-label-1324532' class=' answer'><span>qc = QuantumCircuit.read('myfile.qasm')<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338610[]' id='answer-id-1324533' class='answer   answerof-338610 ' value='1324533'   \/><label for='answer-id-1324533' id='answer-label-1324533' class=' answer'><span>qc = QuantumCircuit.qasm_read('myfile.qasm')<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-87' style=';'><div id='questionWrap-87'  class='   watupro-question-id-338611'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>87. <\/span>Which component of Qiskit provides a high-level interface for quantum circuit creation and manipulation?<\/div><input type='hidden' name='question_id[]' id='qID_87' value='338611' \/><input type='hidden' id='answerType338611' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338611[]' id='answer-id-1324534' class='answer   answerof-338611 ' value='1324534'   \/><label for='answer-id-1324534' id='answer-label-1324534' class=' answer'><span>Qiskit Aer<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338611[]' id='answer-id-1324535' class='answer   answerof-338611 ' value='1324535'   \/><label for='answer-id-1324535' id='answer-label-1324535' class=' answer'><span>Qiskit Terra<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338611[]' id='answer-id-1324536' class='answer   answerof-338611 ' value='1324536'   \/><label for='answer-id-1324536' id='answer-label-1324536' class=' answer'><span>Qiskit Ignis<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338611[]' id='answer-id-1324537' class='answer   answerof-338611 ' value='1324537'   \/><label for='answer-id-1324537' id='answer-label-1324537' class=' answer'><span>Qiskit Aqua<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-88' style=';'><div id='questionWrap-88'  class='   watupro-question-id-338612'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>88. <\/span>How does Qiskit Terra contribute to the process of quantum circuit creation?<\/div><input type='hidden' name='question_id[]' id='qID_88' value='338612' \/><input type='hidden' id='answerType338612' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338612[]' id='answer-id-1324538' class='answer   answerof-338612 ' value='1324538'   \/><label for='answer-id-1324538' id='answer-label-1324538' class=' answer'><span>It provides real quantum hardware for circuit execution<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338612[]' id='answer-id-1324539' class='answer   answerof-338612 ' value='1324539'   \/><label for='answer-id-1324539' id='answer-label-1324539' class=' answer'><span>It designs and simulates quantum circuits on classical computers<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338612[]' id='answer-id-1324540' class='answer   answerof-338612 ' value='1324540'   \/><label for='answer-id-1324540' id='answer-label-1324540' class=' answer'><span>It focuses on quantum error correction for circuits<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338612[]' id='answer-id-1324541' class='answer   answerof-338612 ' value='1324541'   \/><label for='answer-id-1324541' id='answer-label-1324541' class=' answer'><span>It generates quantum algorithms for various applications<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-89' style=';'><div id='questionWrap-89'  class='   watupro-question-id-338613'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>89. <\/span>What does the draw(output=\u2019latex\u2019) function in qiskit returns?<\/div><input type='hidden' name='question_id[]' id='qID_89' value='338613' \/><input type='hidden' id='answerType338613' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338613[]' id='answer-id-1324542' class='answer   answerof-338613 ' value='1324542'   \/><label for='answer-id-1324542' id='answer-label-1324542' class=' answer'><span>TextDrawing<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338613[]' id='answer-id-1324543' class='answer   answerof-338613 ' value='1324543'   \/><label for='answer-id-1324543' id='answer-label-1324543' class=' answer'><span>matplotlib.figure.Figure<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338613[]' id='answer-id-1324544' class='answer   answerof-338613 ' value='1324544'   \/><label for='answer-id-1324544' id='answer-label-1324544' class=' answer'><span>PI<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338613[]' id='answer-id-1324545' class='answer   answerof-338613 ' value='1324545'   \/><label for='answer-id-1324545' id='answer-label-1324545' class=' answer'><span>Image<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338613[]' id='answer-id-1324546' class='answer   answerof-338613 ' value='1324546'   \/><label for='answer-id-1324546' id='answer-label-1324546' class=' answer'><span>str<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-90' style=';'><div id='questionWrap-90'  class='   watupro-question-id-338614'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>90. <\/span>Given the state vector represented by this Bloch sphere of single bit quantum circuitqc, please choose the operations. <br \/>\r<br>Which would lead to this state by assuming the quantum circuit is initialized to |0&gt; (select any 3) <br \/>\r<br><br><img decoding=\"async\" width=313 height=326 id=\"\u56fe\u7247 103\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image034-6.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_90' value='338614' \/><input type='hidden' id='answerType338614' value='checkbox'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338614[]' id='answer-id-1324547' class='answer   answerof-338614 ' value='1324547'   \/><label for='answer-id-1324547' id='answer-label-1324547' class=' answer'><span>qc.h(0)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338614[]' id='answer-id-1324548' class='answer   answerof-338614 ' value='1324548'   \/><label for='answer-id-1324548' id='answer-label-1324548' class=' answer'><span>qc.h(0) \r\nqc.x(0)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338614[]' id='answer-id-1324549' class='answer   answerof-338614 ' value='1324549'   \/><label for='answer-id-1324549' id='answer-label-1324549' class=' answer'><span>qc.ry(math.pi \/ 2, 0) \r\nqc.x(0)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338614[]' id='answer-id-1324550' class='answer   answerof-338614 ' value='1324550'   \/><label for='answer-id-1324550' id='answer-label-1324550' class=' answer'><span>qc.rx(math.pi, 0)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='checkbox' name='answer-338614[]' id='answer-id-1324551' class='answer   answerof-338614 ' value='1324551'   \/><label for='answer-id-1324551' id='answer-label-1324551' class=' answer'><span>qc.rx(math.pi, 0) \r\nqc.rz(math.pi, 0)<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-91' style=';'><div id='questionWrap-91'  class='   watupro-question-id-338615'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>91. <\/span>Predict the output of counts in the below-given snippet: <br \/>\r<br>q = QuantumRegister(2,'q') <br \/>\r<br>c = ClassicalRegister(2,'c') <br \/>\r<br>qc = QuantumCircuit(q,c) <br \/>\r<br>qc.h(0) <br \/>\r<br>qc.h(1) <br \/>\r<br>qc.measure([0,1],[0,1]) <br \/>\r<br>backend = BasicAer.get_backend('qasm_simulator') <br \/>\r<br>job = execute(qc, backend, shots=100) <br \/>\r<br>counts = job.result().get_counts()<\/div><input type='hidden' name='question_id[]' id='qID_91' value='338615' \/><input type='hidden' id='answerType338615' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338615[]' id='answer-id-1324552' class='answer   answerof-338615 ' value='1324552'   \/><label for='answer-id-1324552' id='answer-label-1324552' class=' answer'><span><br><img decoding=\"async\" width=122 height=10 id=\"\u56fe\u7247 102\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image035-5.jpg\"><br><\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338615[]' id='answer-id-1324553' class='answer   answerof-338615 ' value='1324553'   \/><label for='answer-id-1324553' id='answer-label-1324553' class=' answer'><span><br><img decoding=\"async\" width=70 height=10 id=\"\u56fe\u7247 101\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image036-5.jpg\"><br><\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338615[]' id='answer-id-1324554' class='answer   answerof-338615 ' value='1324554'   \/><label for='answer-id-1324554' id='answer-label-1324554' class=' answer'><span><br><img decoding=\"async\" width=256 height=10 id=\"\u56fe\u7247 100\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image037-7.jpg\"><br><\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338615[]' id='answer-id-1324555' class='answer   answerof-338615 ' value='1324555'   \/><label for='answer-id-1324555' id='answer-label-1324555' class=' answer'><span><br><img decoding=\"async\" width=122 height=10 id=\"\u56fe\u7247 99\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image038-6.jpg\"><br><\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338615[]' id='answer-id-1324556' class='answer   answerof-338615 ' value='1324556'   \/><label for='answer-id-1324556' id='answer-label-1324556' class=' answer'><span><br><img decoding=\"async\" width=70 height=10 id=\"\u56fe\u7247 98\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image039-5.jpg\"><br><\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-92' style=';'><div id='questionWrap-92'  class='   watupro-question-id-338616'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>92. <\/span>What is the depth of the below quantum circuit? <br \/>\r<br><br><img decoding=\"async\" width=214 height=121 id=\"\u56fe\u7247 97\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image040-6.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_92' value='338616' \/><input type='hidden' id='answerType338616' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338616[]' id='answer-id-1324557' class='answer   answerof-338616 ' value='1324557'   \/><label for='answer-id-1324557' id='answer-label-1324557' class=' answer'><span>3<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338616[]' id='answer-id-1324558' class='answer   answerof-338616 ' value='1324558'   \/><label for='answer-id-1324558' id='answer-label-1324558' class=' answer'><span>4<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338616[]' id='answer-id-1324559' class='answer   answerof-338616 ' value='1324559'   \/><label for='answer-id-1324559' id='answer-label-1324559' class=' answer'><span>5<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338616[]' id='answer-id-1324560' class='answer   answerof-338616 ' value='1324560'   \/><label for='answer-id-1324560' id='answer-label-1324560' class=' answer'><span>6<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-93' style=';'><div id='questionWrap-93'  class='   watupro-question-id-338617'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>93. <\/span>In the circuit given below having statevector simulator as the backend, choose the _missing_element_from the options? <br \/>\r<br>qc = QuantumCircuit(1) <br \/>\r<br>qc.x(0) <br \/>\r<br>qc.z(0) <br \/>\r<br>backend_state = BasicAer.get_backend('statevector_simulator') <br \/>\r<br>result = execute(qc,backend_state).result()._missing_element_<\/div><input type='hidden' name='question_id[]' id='qID_93' value='338617' \/><input type='hidden' id='answerType338617' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338617[]' id='answer-id-1324561' class='answer   answerof-338617 ' value='1324561'   \/><label for='answer-id-1324561' id='answer-label-1324561' class=' answer'><span>get_statevector()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338617[]' id='answer-id-1324562' class='answer   answerof-338617 ' value='1324562'   \/><label for='answer-id-1324562' id='answer-label-1324562' class=' answer'><span>get_statevector_state()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338617[]' id='answer-id-1324563' class='answer   answerof-338617 ' value='1324563'   \/><label for='answer-id-1324563' id='answer-label-1324563' class=' answer'><span>get_statevector_result()<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338617[]' id='answer-id-1324564' class='answer   answerof-338617 ' value='1324564'   \/><label for='answer-id-1324564' id='answer-label-1324564' class=' answer'><span>get_state_simulator()<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-94' style=';'><div id='questionWrap-94'  class='   watupro-question-id-338618'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>94. <\/span>What advantage does the Aer provider's simulators offer for researchers and developers?<\/div><input type='hidden' name='question_id[]' id='qID_94' value='338618' \/><input type='hidden' id='answerType338618' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338618[]' id='answer-id-1324565' class='answer   answerof-338618 ' value='1324565'   \/><label for='answer-id-1324565' id='answer-label-1324565' class=' answer'><span>High-level abstraction from the quantum algorithms<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338618[]' id='answer-id-1324566' class='answer   answerof-338618 ' value='1324566'   \/><label for='answer-id-1324566' id='answer-label-1324566' class=' answer'><span>Direct access to quantum cloud services<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338618[]' id='answer-id-1324567' class='answer   answerof-338618 ' value='1324567'   \/><label for='answer-id-1324567' id='answer-label-1324567' class=' answer'><span>Cost-effective and faster testing of quantum algorithms<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338618[]' id='answer-id-1324568' class='answer   answerof-338618 ' value='1324568'   \/><label for='answer-id-1324568' id='answer-label-1324568' class=' answer'><span>Execution of algorithms with quantum error correction codes<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-95' style=';'><div id='questionWrap-95'  class='   watupro-question-id-338619'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>95. <\/span>In quantum computing, what is the primary method for retrieving results from a quantum experiment?<\/div><input type='hidden' name='question_id[]' id='qID_95' value='338619' \/><input type='hidden' id='answerType338619' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338619[]' id='answer-id-1324569' class='answer   answerof-338619 ' value='1324569'   \/><label for='answer-id-1324569' id='answer-label-1324569' class=' answer'><span>Direct measurement of qubit states<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338619[]' id='answer-id-1324570' class='answer   answerof-338619 ' value='1324570'   \/><label for='answer-id-1324570' id='answer-label-1324570' class=' answer'><span>Analyzing quantum gates in the circuit<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338619[]' id='answer-id-1324571' class='answer   answerof-338619 ' value='1324571'   \/><label for='answer-id-1324571' id='answer-label-1324571' class=' answer'><span>Evaluating quantum error correction codes<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338619[]' id='answer-id-1324572' class='answer   answerof-338619 ' value='1324572'   \/><label for='answer-id-1324572' id='answer-label-1324572' class=' answer'><span>Simulating the quantum circuit on a classical computer<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-96' style=';'><div id='questionWrap-96'  class='   watupro-question-id-338620'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>96. <\/span>Predict the output of the average_gate_fidelity, process_fidelity of the below snippet: <br \/>\r<br>a = Operator(YGate()) <br \/>\r<br>b = np.exp(1j \/2) * a <br \/>\r<br>average_gate_fidelity(a,b) <br \/>\r<br>process_fiedlity(a,b)<\/div><input type='hidden' name='question_id[]' id='qID_96' value='338620' \/><input type='hidden' id='answerType338620' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338620[]' id='answer-id-1324573' class='answer   answerof-338620 ' value='1324573'   \/><label for='answer-id-1324573' id='answer-label-1324573' class=' answer'><span>average_gate_fidelity will be 0.5 and  process_fidelity will be 1.0<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338620[]' id='answer-id-1324574' class='answer   answerof-338620 ' value='1324574'   \/><label for='answer-id-1324574' id='answer-label-1324574' class=' answer'><span>average_gate_fidelity will be 1.0 and process_fidelity will be 0.5<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338620[]' id='answer-id-1324575' class='answer   answerof-338620 ' value='1324575'   \/><label for='answer-id-1324575' id='answer-label-1324575' class=' answer'><span>average_gate_fidelity will be 0 and process_fidelity will be 0.5<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338620[]' id='answer-id-1324576' class='answer   answerof-338620 ' value='1324576'   \/><label for='answer-id-1324576' id='answer-label-1324576' class=' answer'><span>average_gate_fidelity will be 1.0 and process_fidelity will be 1.0<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-97' style=';'><div id='questionWrap-97'  class='   watupro-question-id-338621'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>97. <\/span>What process follows the retrieval of results from a quantum experiment to draw meaningful conclusions?<\/div><input type='hidden' name='question_id[]' id='qID_97' value='338621' \/><input type='hidden' id='answerType338621' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338621[]' id='answer-id-1324577' class='answer   answerof-338621 ' value='1324577'   \/><label for='answer-id-1324577' id='answer-label-1324577' class=' answer'><span>Quantum gate optimization<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338621[]' id='answer-id-1324578' class='answer   answerof-338621 ' value='1324578'   \/><label for='answer-id-1324578' id='answer-label-1324578' class=' answer'><span>Quantum entanglement verification<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338621[]' id='answer-id-1324579' class='answer   answerof-338621 ' value='1324579'   \/><label for='answer-id-1324579' id='answer-label-1324579' class=' answer'><span>Statistical analysis and result interpretation<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338621[]' id='answer-id-1324580' class='answer   answerof-338621 ' value='1324580'   \/><label for='answer-id-1324580' id='answer-label-1324580' class=' answer'><span>Implementing quantum error correction codes<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-98' style=';'><div id='questionWrap-98'  class='   watupro-question-id-338622'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>98. <\/span>which of the following simulator can be as good as real IBM Quantum computer?<\/div><input type='hidden' name='question_id[]' id='qID_98' value='338622' \/><input type='hidden' id='answerType338622' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338622[]' id='answer-id-1324581' class='answer   answerof-338622 ' value='1324581'   \/><label for='answer-id-1324581' id='answer-label-1324581' class=' answer'><span>qasm_simulator<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338622[]' id='answer-id-1324582' class='answer   answerof-338622 ' value='1324582'   \/><label for='answer-id-1324582' id='answer-label-1324582' class=' answer'><span>real_quantum_simulator<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338622[]' id='answer-id-1324583' class='answer   answerof-338622 ' value='1324583'   \/><label for='answer-id-1324583' id='answer-label-1324583' class=' answer'><span>statevector_simulator<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338622[]' id='answer-id-1324584' class='answer   answerof-338622 ' value='1324584'   \/><label for='answer-id-1324584' id='answer-label-1324584' class=' answer'><span>unitary_simulator<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-99' style=';'><div id='questionWrap-99'  class='   watupro-question-id-338623'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>99. <\/span>Given Quantum Circuit <br \/>\r<br>qc= QuantumCircuit(2) <br \/>\r<br>qc.h(0) <br \/>\r<br>qc.cx(0,1) <br \/>\r<br>to run the above quantum circuit for 2000 times in the qasm_simulator, choose the best option in the given below? <br \/>\r<br>A) <br \/>\r<br><br><img decoding=\"async\" width=300 height=40 id=\"\u56fe\u7247 96\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image041-6.jpg\"><br><br \/>\r<br>B) <br \/>\r<br><br><img decoding=\"async\" width=300 height=40 id=\"\u56fe\u7247 95\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image042-6.jpg\"><br><br \/>\r<br>C) <br \/>\r<br><br><img decoding=\"async\" width=300 height=40 id=\"\u56fe\u7247 94\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image043-6.jpg\"><br><br \/>\r<br>D) <br \/>\r<br><br><img decoding=\"async\" width=300 height=40 id=\"\u56fe\u7247 93\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/uploads\/2024\/06\/image044-4.jpg\"><br><\/div><input type='hidden' name='question_id[]' id='qID_99' value='338623' \/><input type='hidden' id='answerType338623' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338623[]' id='answer-id-1324585' class='answer   answerof-338623 ' value='1324585'   \/><label for='answer-id-1324585' id='answer-label-1324585' class=' answer'><span>Option A<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338623[]' id='answer-id-1324586' class='answer   answerof-338623 ' value='1324586'   \/><label for='answer-id-1324586' id='answer-label-1324586' class=' answer'><span>Option B<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338623[]' id='answer-id-1324587' class='answer   answerof-338623 ' value='1324587'   \/><label for='answer-id-1324587' id='answer-label-1324587' class=' answer'><span>Option C<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338623[]' id='answer-id-1324588' class='answer   answerof-338623 ' value='1324588'   \/><label for='answer-id-1324588' id='answer-label-1324588' class=' answer'><span>Option D<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div class='watu-question ' id='question-100' style=';'><div id='questionWrap-100'  class='   watupro-question-id-338624'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>100. <\/span>Which of the below API returns the random unitary of dimension 2?<\/div><input type='hidden' name='question_id[]' id='qID_100' value='338624' \/><input type='hidden' id='answerType338624' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338624[]' id='answer-id-1324589' class='answer   answerof-338624 ' value='1324589'   \/><label for='answer-id-1324589' id='answer-label-1324589' class=' answer'><span>random_get_unitary(2)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338624[]' id='answer-id-1324590' class='answer   answerof-338624 ' value='1324590'   \/><label for='answer-id-1324590' id='answer-label-1324590' class=' answer'><span>random_unitary(2)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338624[]' id='answer-id-1324591' class='answer   answerof-338624 ' value='1324591'   \/><label for='answer-id-1324591' id='answer-label-1324591' class=' answer'><span>random_get_unitary_matrix(2)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-338624[]' id='answer-id-1324592' class='answer   answerof-338624 ' value='1324592'   \/><label for='answer-id-1324592' id='answer-label-1324592' class=' answer'><span>random_get_unitary_state(2)<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div style='display:none' id='question-101'>\n\t<div class='question-content'>\n\t\t<img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/www.dumpsbase.com\/freedumps\/wp-content\/plugins\/watupro\/img\/loading.gif\" width=\"16\" height=\"16\" alt=\"Loading...\" title=\"Loading...\" \/>&nbsp;Loading...\t<\/div>\n<\/div>\n\n<br \/>\n\t\n\t\t\t<div class=\"watupro_buttons flex \" id=\"watuPROButtons8715\" >\n\t\t  <div 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It will offer opportunities to deepen your expertise in quantum computing with Qiskit. 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