{"id":2058,"date":"2021-09-05T17:06:33","date_gmt":"2021-09-05T17:06:33","guid":{"rendered":"https:\/\/physicscatalyst.com\/testprep\/class-11-physics\/online-test-for-class-11-physics-kinetic-theory-of-gases\/"},"modified":"2021-12-16T05:52:00","modified_gmt":"2021-12-16T05:52:00","slug":"online-test-for-class-11-physics-kinetic-theory-of-gases","status":"publish","type":"post","link":"https:\/\/physicscatalyst.com\/testprep\/class-11-physics\/online-test-for-class-11-physics-kinetic-theory-of-gases\/","title":{"rendered":"Online Test for Class 11 Physics Kinetic Theory of Gases"},"content":{"rendered":"\n<p>  Welcome to this Free Online Mock Test Class 11 Physics Kinetic Theory of Gases. This test contains MCQs for Chapter 11 Kinetic Theory of Gases with Answers for Class 11 Physics. The MCQ questions were created using the most recent exam format. Practicing these questions would allow students to check their knowledge and have a good grasp of the concepts.  <\/p>\n\n\n\n<h2 class=\"wp-block-heading\">Class 11 Physics Kinetic Theory of Gases Online Test<\/h2>\n\n\n<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=\"submittingExam321\" style=\"display:none;text-align:center;\">Please wait...<br><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/physicscatalyst.com\/testprep\/wp-content\/plugins\/watupro\/img\/loading.gif\" width=\"16\" height=\"16\"><\/p>\n\n<div class=\"watupro-exam-description\" id=\"description-quiz-321\"><hr \/>\n<p><strong>General Instructions<\/strong><\/p>\n<ol>\n<li>Your test contains multiple-choice questions with only one answer type questions. There are a total of 20 questions<\/li>\n<li>This is a 30 min test. Please make sure you complete it in stipulated time<\/li>\n<li>You can finish this test any time using the 'Submit' button.<\/li>\n<\/ol>\n<hr \/>\n<\/div>\n\n<form action=\"\" method=\"post\" class=\"quiz-form\" id=\"quiz-321\"  enctype=\"multipart\/form-data\" >\n<div class='watu-question ' id='question-1' style=';'><div id='questionWrap-1'  class='   watupro-question-id-5836'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>1. <\/span>The temperature of a gas is held constant, while its volume is decreased. The pressure exerted by its volume is decreased. The pressure exerted by the gas on the walls of the container increases, because its molecules<\/div><input type='hidden' name='question_id[]' id='qID_1' value='5836' class='watupro-question-id'\/><input type='hidden' id='answerType5836' class='answerTypeCnt1' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5836'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5836[]' id='answer-id-23257' class='answer   answerof-5836  ' value='23257'   \/><label for='answer-id-23257' id='answer-label-23257' class=' answer'><span>strike the walls more frequently<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5836[]' id='answer-id-23258' class='answer   answerof-5836  ' value='23258'   \/><label for='answer-id-23258' id='answer-label-23258' class=' answer'><span>strike the walls with higher velocities<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5836[]' id='answer-id-23259' class='answer   answerof-5836  ' value='23259'   \/><label for='answer-id-23259' id='answer-label-23259' class=' answer'><span>are in contact with the walls for a shorter time<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5836[]' id='answer-id-23260' class='answer   answerof-5836  ' value='23260'   \/><label for='answer-id-23260' id='answer-label-23260' class=' answer'><span>strike the walls with a larger force<\/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-5837'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>2. <\/span>A jar has a mixture of hydrogen gases in the ratio of 1 : 5. The ratio of mean kinetic energies of hydrogen and oxygen molecules is<\/div><input type='hidden' name='question_id[]' id='qID_2' value='5837' class='watupro-question-id'\/><input type='hidden' id='answerType5837' class='answerTypeCnt2' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5837'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5837[]' id='answer-id-23261' class='answer   answerof-5837  ' value='23261'   \/><label for='answer-id-23261' id='answer-label-23261' class=' answer'><span>1 : 16 <\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5837[]' id='answer-id-23262' class='answer   answerof-5837  ' value='23262'   \/><label for='answer-id-23262' id='answer-label-23262' class=' answer'><span>1 : 4<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5837[]' id='answer-id-23263' class='answer   answerof-5837  ' value='23263'   \/><label for='answer-id-23263' id='answer-label-23263' class=' answer'><span>1 : 5 <\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5837[]' id='answer-id-23264' class='answer   answerof-5837  ' value='23264'   \/><label for='answer-id-23264' id='answer-label-23264' class=' answer'><span>1 : 1<\/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-5838'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>3. <\/span>The mean free path of collision\u00a0 of gas molecules varies with its diameter (d) of the molescules as<\/div><input type='hidden' name='question_id[]' id='qID_3' value='5838' class='watupro-question-id'\/><input type='hidden' id='answerType5838' class='answerTypeCnt3' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5838'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5838[]' id='answer-id-23265' class='answer   answerof-5838  ' value='23265'   \/><label for='answer-id-23265' id='answer-label-23265' class=' answer'><span>1\/d<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5838[]' id='answer-id-23266' class='answer   answerof-5838  ' value='23266'   \/><label for='answer-id-23266' id='answer-label-23266' class=' answer'><span>1\/d<sup>2<\/sup><\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5838[]' id='answer-id-23267' class='answer   answerof-5838  ' value='23267'   \/><label for='answer-id-23267' id='answer-label-23267' class=' answer'><span>1\/d<sup>3<\/sup><\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5838[]' id='answer-id-23268' class='answer   answerof-5838  ' value='23268'   \/><label for='answer-id-23268' id='answer-label-23268' class=' answer'><span>1\/d<sup>4<\/sup><\/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-5839'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>4. <\/span>The r.m.s of speed of a group of 7 gas molecules having speed \u00a0( 5,3,1,0,-1,-3,-5) m\/s is<\/div><input type='hidden' name='question_id[]' id='qID_4' value='5839' class='watupro-question-id'\/><input type='hidden' id='answerType5839' class='answerTypeCnt4' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5839'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5839[]' id='answer-id-23269' class='answer   answerof-5839  ' value='23269'   \/><label for='answer-id-23269' id='answer-label-23269' class=' answer'><span>$\\sqrt {69}$ m\/s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5839[]' id='answer-id-23270' class='answer   answerof-5839  ' value='23270'   \/><label for='answer-id-23270' id='answer-label-23270' class=' answer'><span>8 m\/s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5839[]' id='answer-id-23271' class='answer   answerof-5839  ' value='23271'   \/><label for='answer-id-23271' id='answer-label-23271' class=' answer'><span>9 m\/s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5839[]' id='answer-id-23272' class='answer   answerof-5839  ' value='23272'   \/><label for='answer-id-23272' id='answer-label-23272' class=' answer'><span>$\\sqrt {70}$ m\/s<\/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-5840'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>5. <\/span>The number of degrees of freedom for a diatomic gas molecule is<\/div><input type='hidden' name='question_id[]' id='qID_5' value='5840' class='watupro-question-id'\/><input type='hidden' id='answerType5840' class='answerTypeCnt5' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5840'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5840[]' id='answer-id-23273' class='answer   answerof-5840  ' value='23273'   \/><label for='answer-id-23273' id='answer-label-23273' class=' answer'><span>2<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5840[]' id='answer-id-23274' class='answer   answerof-5840  ' value='23274'   \/><label for='answer-id-23274' id='answer-label-23274' class=' answer'><span>3<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5840[]' id='answer-id-23275' class='answer   answerof-5840  ' value='23275'   \/><label for='answer-id-23275' id='answer-label-23275' class=' answer'><span>5<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5840[]' id='answer-id-23276' class='answer   answerof-5840  ' value='23276'   \/><label for='answer-id-23276' id='answer-label-23276' class=' answer'><span>6<\/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-5841'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>6. <\/span>Relation between Pressure P and average Kinetic energy E per unit volume of a gas is<\/div><input type='hidden' name='question_id[]' id='qID_6' value='5841' class='watupro-question-id'\/><input type='hidden' id='answerType5841' class='answerTypeCnt6' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5841'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5841[]' id='answer-id-23277' class='answer   answerof-5841  ' value='23277'   \/><label for='answer-id-23277' id='answer-label-23277' class=' answer'><span>P = 2E\/3<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5841[]' id='answer-id-23278' class='answer   answerof-5841  ' value='23278'   \/><label for='answer-id-23278' id='answer-label-23278' class=' answer'><span>P=E\/3<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5841[]' id='answer-id-23279' class='answer   answerof-5841  ' value='23279'   \/><label for='answer-id-23279' id='answer-label-23279' class=' answer'><span>P = 3E\/2<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5841[]' id='answer-id-23280' class='answer   answerof-5841  ' value='23280'   \/><label for='answer-id-23280' id='answer-label-23280' class=' answer'><span>P = 3E<\/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-5842'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>7. <\/span>The molar specific heat of a gas as given from the kinetic theory is 5R\/2. If it is not specified whether it is Cp or Cv, one could conclude that the molecules of the gas<\/div><input type='hidden' name='question_id[]' id='qID_7' value='5842' class='watupro-question-id'\/><input type='hidden' id='answerType5842' class='answerTypeCnt7' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5842'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5842[]' id='answer-id-23281' class='answer   answerof-5842  ' value='23281'   \/><label for='answer-id-23281' id='answer-label-23281' class=' answer'><span>are definitely monoatomic<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5842[]' id='answer-id-23282' class='answer   answerof-5842  ' value='23282'   \/><label for='answer-id-23282' id='answer-label-23282' class=' answer'><span>are definitely rigid diatomic<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5842[]' id='answer-id-23283' class='answer   answerof-5842  ' value='23283'   \/><label for='answer-id-23283' id='answer-label-23283' class=' answer'><span>are definitely non-rigid diatomic<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5842[]' id='answer-id-23284' class='answer   answerof-5842  ' value='23284'   \/><label for='answer-id-23284' id='answer-label-23284' class=' answer'><span>can be monoatomic or rigid diatomic<\/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-5843'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>8. <\/span>The absolute zero is the temperature at which<\/div><input type='hidden' name='question_id[]' id='qID_8' value='5843' class='watupro-question-id'\/><input type='hidden' id='answerType5843' class='answerTypeCnt8' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5843'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5843[]' id='answer-id-23285' class='answer   answerof-5843  ' value='23285'   \/><label for='answer-id-23285' id='answer-label-23285' class=' answer'><span>All substances exist in solid-state<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5843[]' id='answer-id-23286' class='answer   answerof-5843  ' value='23286'   \/><label for='answer-id-23286' id='answer-label-23286' class=' answer'><span>Water freezes<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5843[]' id='answer-id-23287' class='answer   answerof-5843  ' value='23287'   \/><label for='answer-id-23287' id='answer-label-23287' class=' answer'><span>Molecular motion ceases<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5843[]' id='answer-id-23288' class='answer   answerof-5843  ' value='23288'   \/><label for='answer-id-23288' id='answer-label-23288' class=' answer'><span>None of these<\/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-5844'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>9. <\/span>If a gas has n degrees of freedom , then ratio of specific heats of gas is<\/div><input type='hidden' name='question_id[]' id='qID_9' value='5844' class='watupro-question-id'\/><input type='hidden' id='answerType5844' class='answerTypeCnt9' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5844'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5844[]' id='answer-id-23289' class='answer   answerof-5844  ' value='23289'   \/><label for='answer-id-23289' id='answer-label-23289' class=' answer'><span>$ \\frac {1+n}{2}$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5844[]' id='answer-id-23290' class='answer   answerof-5844  ' value='23290'   \/><label for='answer-id-23290' id='answer-label-23290' class=' answer'><span> $1 + \\frac {1}{n}$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5844[]' id='answer-id-23291' class='answer   answerof-5844  ' value='23291'   \/><label for='answer-id-23291' id='answer-label-23291' class=' answer'><span>$ 1 + \\frac {n}{2}$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5844[]' id='answer-id-23292' class='answer   answerof-5844  ' value='23292'   \/><label for='answer-id-23292' id='answer-label-23292' class=' answer'><span>$ 1 + \\frac {2}{n}$<\/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-5845'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>10. <\/span>Three perfect gasses at absolute temperatures $T_1$, $T_2$, and $T_3$ are mixed. The masses of molecules are $m_1$,$m_2$ and $m_3$ and the number of molecules of the gasses is $n_1$, $n_2$, and $n_3$ respectively then assuming no loss of energy, the final temperature of the mixture will be<\/div><input type='hidden' name='question_id[]' id='qID_10' value='5845' class='watupro-question-id'\/><input type='hidden' id='answerType5845' class='answerTypeCnt10' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5845'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5845[]' id='answer-id-23293' class='answer   answerof-5845  ' value='23293'   \/><label for='answer-id-23293' id='answer-label-23293' class=' answer'><span>$ \\frac {T_1 + T_2 + T_3}{3}$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5845[]' id='answer-id-23294' class='answer   answerof-5845  ' value='23294'   \/><label for='answer-id-23294' id='answer-label-23294' class=' answer'><span>$ \\frac {n_1T_1 + n_2T_2 + n_3T_3}{n_1 + n_2+n_3}$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5845[]' id='answer-id-23295' class='answer   answerof-5845  ' value='23295'   \/><label for='answer-id-23295' id='answer-label-23295' class=' answer'><span>$ \\frac {n_1T_1^2 + n_2T_2^2 + n_3T_3^2}{n_1T_1 + n_2T_2 + n_3T_3}$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5845[]' id='answer-id-23296' class='answer   answerof-5845  ' value='23296'   \/><label for='answer-id-23296' id='answer-label-23296' class=' answer'><span>$ \\frac {n_1^2T_1^2 + n_2^2T_2^2 + n_3^2T_3^2}{n_1T_1 + n_2T_2 + n_3T_3}$<\/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-5846'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>11. <\/span>In the following questions, a statement of assertion is followed by a statement of reason. You are required to choose the correct one out of the given four responses and mark it as<br \/>\r\n<span style=\"font-size: 16px;\">(a) If both assertion and reason are true and the reason is the correct explanation of the assertion.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(b) If both assertion and reason are true but the reason is not the correct explanation of the assertion.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(c) If the assertion is true, but the reason is false.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(d) If both assertion and reason are false.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(e) If the reason is true but the assertion is false.<br \/>\r\n<br \/>\r\n<\/span><span style=\"font-size: 16px;\"><strong>Assertion<\/strong>: In the free expansion of an ideal gas, the entropy increases.<br \/>\r\n<\/span><span style=\"font-size: 16px;\"><strong>Reason<\/strong>: Entropy increases in all-natural processes.<\/span><\/div><input type='hidden' name='question_id[]' id='qID_11' value='5846' class='watupro-question-id'\/><input type='hidden' id='answerType5846' class='answerTypeCnt11' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5846'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5846[]' id='answer-id-23297' class='answer   answerof-5846  ' value='23297'   \/><label for='answer-id-23297' id='answer-label-23297' class=' answer'><span>(a)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5846[]' id='answer-id-23298' class='answer   answerof-5846  ' value='23298'   \/><label for='answer-id-23298' id='answer-label-23298' class=' answer'><span>(b)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5846[]' id='answer-id-23299' class='answer   answerof-5846  ' value='23299'   \/><label for='answer-id-23299' id='answer-label-23299' class=' answer'><span>(c)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5846[]' id='answer-id-23300' class='answer   answerof-5846  ' value='23300'   \/><label for='answer-id-23300' id='answer-label-23300' class=' answer'><span>(d)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5846[]' id='answer-id-23301' class='answer   answerof-5846  ' value='23301'   \/><label for='answer-id-23301' id='answer-label-23301' class=' answer'><span>(e)<\/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-5847'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>12. <\/span>In the following questions, a statement of assertion is followed by a statement of reason. You are required to choose the correct one out of the given four responses and mark it as<br \/>\r\n<span style=\"font-size: 16px;\">(a) If both assertion and reason are true and reason is the correct explanation of the assertion.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(b) If both assertion and reason are true but reason is not correct explanation of the assertion.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(c) If assertion is true, but reason is false.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(d) If both assertion and reason are false.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(e) If reason is true but assertion is false.<\/span>&nbsp;<br \/>\r\n<br \/>\r\n<strong>Assertion<\/strong>: Air pressure in a car tire increases during driving<br \/>\r\n<span style=\"font-size: 16px;\"><strong>Reason<\/strong>: Absolute zero temperature is not zero energy temperature<\/span><\/div><input type='hidden' name='question_id[]' id='qID_12' value='5847' class='watupro-question-id'\/><input type='hidden' id='answerType5847' class='answerTypeCnt12' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5847'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5847[]' id='answer-id-23302' class='answer   answerof-5847  ' value='23302'   \/><label for='answer-id-23302' id='answer-label-23302' class=' answer'><span>(a)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5847[]' id='answer-id-23303' class='answer   answerof-5847  ' value='23303'   \/><label for='answer-id-23303' id='answer-label-23303' class=' answer'><span>(b)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5847[]' id='answer-id-23304' class='answer   answerof-5847  ' value='23304'   \/><label for='answer-id-23304' id='answer-label-23304' class=' answer'><span>(c)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5847[]' id='answer-id-23305' class='answer   answerof-5847  ' value='23305'   \/><label for='answer-id-23305' id='answer-label-23305' class=' answer'><span>(d)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5847[]' id='answer-id-23306' class='answer   answerof-5847  ' value='23306'   \/><label for='answer-id-23306' id='answer-label-23306' class=' answer'><span>(e)<\/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-5848'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>13. <\/span>In the following questions, a statement of assertion is followed by a statement of reason. You are required to choose the correct one out of the given four responses and mark it as<br \/>\r\n<span style=\"font-size: 16px;\">(a) If both assertion and reason are true and reason is the correct explanation of the assertion.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(b) If both assertion and reason are true but reason is not correct explanation of the assertion.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(c) If assertion is true, but reason is false.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(d) If both assertion and reason are false.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(e) If reason is true but assertion is false.<\/span>&nbsp;<br \/>\r\n<br \/>\r\n<strong>Assertion<\/strong>: The root mean square\u00a0 and most probable speeds of the molecules in a gas are the same<br \/>\r\n<span style=\"font-size: 16px;\"><strong>Reason<\/strong>: The maxwell distribution for the speed to molecules\u00a0 in a gas is symmetrical<\/span>&nbsp;<\/div><input type='hidden' name='question_id[]' id='qID_13' value='5848' class='watupro-question-id'\/><input type='hidden' id='answerType5848' class='answerTypeCnt13' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5848'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5848[]' id='answer-id-23307' class='answer   answerof-5848  ' value='23307'   \/><label for='answer-id-23307' id='answer-label-23307' class=' answer'><span>(a)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5848[]' id='answer-id-23308' class='answer   answerof-5848  ' value='23308'   \/><label for='answer-id-23308' id='answer-label-23308' class=' answer'><span>(b)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5848[]' id='answer-id-23309' class='answer   answerof-5848  ' value='23309'   \/><label for='answer-id-23309' id='answer-label-23309' class=' answer'><span>(c)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5848[]' id='answer-id-23310' class='answer   answerof-5848  ' value='23310'   \/><label for='answer-id-23310' id='answer-label-23310' class=' answer'><span>(d)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5848[]' id='answer-id-23311' class='answer   answerof-5848  ' value='23311'   \/><label for='answer-id-23311' id='answer-label-23311' class=' answer'><span>(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-5849'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>14. <\/span>In the following questions, a statement of assertion is followed by a statement of reason. You are required to choose the correct one out of the given four responses and mark it as<br \/>\r\n<span style=\"font-size: 16px;\">(a) If both assertion and reason are true and reason is the correct explanation of the assertion.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(b) If both assertion and reason are true but reason is not correct explanation of the assertion.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(c) If assertion is true, but reason is false.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(d) If both assertion and reason are false.<br \/>\r\n<\/span><span style=\"font-size: 16px;\">(e) If reason is true but assertion is false.<\/span>&nbsp;<br \/>\r\n<br \/>\r\n<strong>Assertion<\/strong>: Vibrational energy of diatomic molecule corresponding to each degree of freedom is $k_BT$.<br \/>\r\n<strong style=\"font-size: 16px;\">Reason<\/strong><span style=\"font-size: 16px;\">: For every molecule, the vibrational degree of freedom is 2.<\/span><\/div><input type='hidden' name='question_id[]' id='qID_14' value='5849' class='watupro-question-id'\/><input type='hidden' id='answerType5849' class='answerTypeCnt14' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5849'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5849[]' id='answer-id-23312' class='answer   answerof-5849  ' value='23312'   \/><label for='answer-id-23312' id='answer-label-23312' class=' answer'><span>(a)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5849[]' id='answer-id-23313' class='answer   answerof-5849  ' value='23313'   \/><label for='answer-id-23313' id='answer-label-23313' class=' answer'><span>(b)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5849[]' id='answer-id-23314' class='answer   answerof-5849  ' value='23314'   \/><label for='answer-id-23314' id='answer-label-23314' class=' answer'><span>(c)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5849[]' id='answer-id-23315' class='answer   answerof-5849  ' value='23315'   \/><label for='answer-id-23315' id='answer-label-23315' class=' answer'><span>(d)<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5849[]' id='answer-id-23316' class='answer   answerof-5849  ' value='23316'   \/><label for='answer-id-23316' id='answer-label-23316' class=' answer'><span>(e)<\/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-5850'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>15. <\/span>You have the following group of particles,$n_1$ represents the number of molecules with speed $v_1$?<br \/>\r\n<br \/>\r\n<img loading=\"lazy\" decoding=\"async\" class=\"alignnone wp-image-2057 size-full\" src=\"https:\/\/physicscatalyst.com\/testprep\/wp-content\/uploads\/2021\/09\/class-11-physics-kinetic-theory-of-gases-online-test-1.png\" alt=\"Online Test for Class 11 Physics Kinetic Theory of Gases\" width=\"341\" height=\"61\" \/>&nbsp;<br \/>\r\n<br \/>\r\nFind the average speed<\/div><input type='hidden' name='question_id[]' id='qID_15' value='5850' class='watupro-question-id'\/><input type='hidden' id='answerType5850' class='answerTypeCnt15' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5850'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5850[]' id='answer-id-23317' class='answer   answerof-5850  ' value='23317'   \/><label for='answer-id-23317' id='answer-label-23317' class=' answer'><span>4.1 m\/s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5850[]' id='answer-id-23318' class='answer   answerof-5850  ' value='23318'   \/><label for='answer-id-23318' id='answer-label-23318' class=' answer'><span>3.37 m\/s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5850[]' id='answer-id-23319' class='answer   answerof-5850  ' value='23319'   \/><label for='answer-id-23319' id='answer-label-23319' class=' answer'><span>3.17 m\/s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5850[]' id='answer-id-23320' class='answer   answerof-5850  ' value='23320'   \/><label for='answer-id-23320' id='answer-label-23320' class=' answer'><span>3 m\/s<\/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-5851'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>16. <\/span>Find the rms speed<\/div><input type='hidden' name='question_id[]' id='qID_16' value='5851' class='watupro-question-id'\/><input type='hidden' id='answerType5851' class='answerTypeCnt16' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5851'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5851[]' id='answer-id-23321' class='answer   answerof-5851  ' value='23321'   \/><label for='answer-id-23321' id='answer-label-23321' class=' answer'><span>4.1 m\/s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5851[]' id='answer-id-23322' class='answer   answerof-5851  ' value='23322'   \/><label for='answer-id-23322' id='answer-label-23322' class=' answer'><span>3.37 m\/s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5851[]' id='answer-id-23323' class='answer   answerof-5851  ' value='23323'   \/><label for='answer-id-23323' id='answer-label-23323' class=' answer'><span>3.17 m\/s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5851[]' id='answer-id-23324' class='answer   answerof-5851  ' value='23324'   \/><label for='answer-id-23324' id='answer-label-23324' class=' answer'><span>3 m\/s<\/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-5852'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>17. <\/span>Find the most probable speed?<\/div><input type='hidden' name='question_id[]' id='qID_17' value='5852' class='watupro-question-id'\/><input type='hidden' id='answerType5852' class='answerTypeCnt17' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5852'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5852[]' id='answer-id-23325' class='answer   answerof-5852  ' value='23325'   \/><label for='answer-id-23325' id='answer-label-23325' class=' answer'><span>4.1 m\/s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5852[]' id='answer-id-23326' class='answer   answerof-5852  ' value='23326'   \/><label for='answer-id-23326' id='answer-label-23326' class=' answer'><span>3.37 m\/s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5852[]' id='answer-id-23327' class='answer   answerof-5852  ' value='23327'   \/><label for='answer-id-23327' id='answer-label-23327' class=' answer'><span>3.17 m\/s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5852[]' id='answer-id-23328' class='answer   answerof-5852  ' value='23328'   \/><label for='answer-id-23328' id='answer-label-23328' class=' answer'><span>3 m\/s<\/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-5853'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>18. <\/span>The critical volume of a gas obeying van der Waals\u2019 equation is<\/div><input type='hidden' name='question_id[]' id='qID_18' value='5853' class='watupro-question-id'\/><input type='hidden' id='answerType5853' class='answerTypeCnt18' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5853'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5853[]' id='answer-id-23329' class='answer   answerof-5853  ' value='23329'   \/><label for='answer-id-23329' id='answer-label-23329' class=' answer'><span>8a\/27Rb<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5853[]' id='answer-id-23330' class='answer   answerof-5853  ' value='23330'   \/><label for='answer-id-23330' id='answer-label-23330' class=' answer'><span>a\/27b<sup>2<\/sup>R<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5853[]' id='answer-id-23331' class='answer   answerof-5853  ' value='23331'   \/><label for='answer-id-23331' id='answer-label-23331' class=' answer'><span>3b <\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5853[]' id='answer-id-23332' class='answer   answerof-5853  ' value='23332'   \/><label for='answer-id-23332' id='answer-label-23332' class=' answer'><span>a\/27Rb<\/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-5854'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>19. <\/span>When you make ice cubes, the entropy of water<\/div><input type='hidden' name='question_id[]' id='qID_19' value='5854' class='watupro-question-id'\/><input type='hidden' id='answerType5854' class='answerTypeCnt19' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5854'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5854[]' id='answer-id-23333' class='answer   answerof-5854  ' value='23333'   \/><label for='answer-id-23333' id='answer-label-23333' class=' answer'><span>does not change<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5854[]' id='answer-id-23334' class='answer   answerof-5854  ' value='23334'   \/><label for='answer-id-23334' id='answer-label-23334' class=' answer'><span>increase<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5854[]' id='answer-id-23335' class='answer   answerof-5854  ' value='23335'   \/><label for='answer-id-23335' id='answer-label-23335' class=' answer'><span>decreases<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5854[]' id='answer-id-23336' class='answer   answerof-5854  ' value='23336'   \/><label for='answer-id-23336' id='answer-label-23336' class=' answer'><span>may either increase or decrease depending on the process used.\r\n<\/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-5855'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>20. <\/span>Which of the following is not a state function?<\/div><input type='hidden' name='question_id[]' id='qID_20' value='5855' class='watupro-question-id'\/><input type='hidden' id='answerType5855' class='answerTypeCnt20' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5855'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5855[]' id='answer-id-23337' class='answer   answerof-5855  ' value='23337'   \/><label for='answer-id-23337' id='answer-label-23337' class=' answer'><span>Work-done in adiabatic process<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5855[]' id='answer-id-23338' class='answer   answerof-5855  ' value='23338'   \/><label for='answer-id-23338' id='answer-label-23338' class=' answer'><span>Work done in isothermal process<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5855[]' id='answer-id-23339' class='answer   answerof-5855  ' value='23339'   \/><label for='answer-id-23339' id='answer-label-23339' class=' answer'><span>Heat at constant pressure<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5855[]' id='answer-id-23340' class='answer   answerof-5855  ' value='23340'   \/><label for='answer-id-23340' id='answer-label-23340' class=' answer'><span>Heat at constant volume<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div style='display:none' id='question-21'>\n\t<div class='question-content'>\n\t\t<img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/physicscatalyst.com\/testprep\/wp-content\/plugins\/watupro\/img\/loading.gif\" width=\"16\" height=\"16\" alt=\"Loading...\" title=\"Loading...\" 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This test contains MCQs for Chapter 11 Kinetic Theory of Gases with Answers for Class 11 Physics. The MCQ questions were created using the most recent exam format. Practicing these questions would allow students to check their knowledge and have a 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