{"id":1807,"date":"2021-02-07T06:49:14","date_gmt":"2021-02-07T06:49:14","guid":{"rendered":"https:\/\/physicscatalyst.com\/testprep\/class-11-physics\/online-test-for-class-11-physics-laws-of-motion\/"},"modified":"2021-02-07T16:41:36","modified_gmt":"2021-02-07T16:41:36","slug":"online-test-laws-of-motion","status":"publish","type":"post","link":"https:\/\/physicscatalyst.com\/testprep\/class-11-physics\/online-test-laws-of-motion\/","title":{"rendered":"Online Test For Class 11 Physics Laws of Motion"},"content":{"rendered":"\n<p>Practice <a href=\"https:\/\/physicscatalyst.com\/class11.php\" target=\"_blank\" rel=\"noreferrer noopener\">class 11 physics<\/a> chapter 5 Laws of Motion objective type questions through this online test. This is a very important chapter for preparation of competitive exams point of view.<\/p>\n\n\n\n<div class=\"wp-block-image\"><figure class=\"aligncenter size-large\"><img loading=\"lazy\" decoding=\"async\" width=\"1120\" height=\"630\" src=\"https:\/\/physicscatalyst.com\/testprep\/wp-content\/uploads\/2021\/02\/Laws-of-motion-Online-MCQ-Test.png\" alt=\"Laws of Motion Online MCQ Test - blog banner\" class=\"wp-image-1812\"\/><figcaption>image source canva<\/figcaption><\/figure><\/div>\n\n\n\n<hr class=\"wp-block-separator\"\/>\n\n\n\n<h2 class=\"has-text-align-center wp-block-heading\">Laws of Motion Online MCQ Test<\/h2>\n\n\n\n<hr class=\"wp-block-separator\"\/>\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=\"submittingExam289\" 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-289\"><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 25 questions<\/li>\n<li>This is a 45 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-289\"  enctype=\"multipart\/form-data\" >\n<div class='watupro-paginator-wrap watupro-question-paginator-wrap ' style='display:none;'><ul class='watupro-paginator watupro-question-paginator watupro-paginator-custom'><li class=\"rewind-down\" onclick=\"WatuPRO.movePaginator('down', 25);\">&lt;&lt;<\/li><li class='active  decade-1' id='WatuPROPagination1' onclick='WatuPRO.goto(event, 1, true);'>1<\/li><li class='  decade-1' id='WatuPROPagination2' onclick='WatuPRO.goto(event, 2, true);'>2<\/li><li class='  decade-1' id='WatuPROPagination3' onclick='WatuPRO.goto(event, 3, true);'>3<\/li><li class='  decade-1' id='WatuPROPagination4' onclick='WatuPRO.goto(event, 4, true);'>4<\/li><li class='  decade-1' id='WatuPROPagination5' onclick='WatuPRO.goto(event, 5, true);'>5<\/li><li class='  decade-1' id='WatuPROPagination6' onclick='WatuPRO.goto(event, 6, true);'>6<\/li><li class='  decade-1' id='WatuPROPagination7' onclick='WatuPRO.goto(event, 7, true);'>7<\/li><li class='  decade-1' id='WatuPROPagination8' onclick='WatuPRO.goto(event, 8, true);'>8<\/li><li class='  decade-1' id='WatuPROPagination9' onclick='WatuPRO.goto(event, 9, true);'>9<\/li><li class='  decade-1' id='WatuPROPagination10' onclick='WatuPRO.goto(event, 10, true);'>10<\/li><li class='  decade-2' id='WatuPROPagination11' onclick='WatuPRO.goto(event, 11, true);'>11<\/li><li class='  decade-2' id='WatuPROPagination12' onclick='WatuPRO.goto(event, 12, true);'>12<\/li><li class='  decade-2' id='WatuPROPagination13' onclick='WatuPRO.goto(event, 13, true);'>13<\/li><li class='  decade-2' id='WatuPROPagination14' onclick='WatuPRO.goto(event, 14, true);'>14<\/li><li class='  decade-2' id='WatuPROPagination15' onclick='WatuPRO.goto(event, 15, true);'>15<\/li><li class='  decade-2' id='WatuPROPagination16' onclick='WatuPRO.goto(event, 16, true);'>16<\/li><li class='  decade-2' id='WatuPROPagination17' onclick='WatuPRO.goto(event, 17, true);'>17<\/li><li class='  decade-2' id='WatuPROPagination18' onclick='WatuPRO.goto(event, 18, true);'>18<\/li><li class='  decade-2' id='WatuPROPagination19' onclick='WatuPRO.goto(event, 19, true);'>19<\/li><li class='  decade-2' id='WatuPROPagination20' onclick='WatuPRO.goto(event, 20, true);'>20<\/li><li class='  decade-3' id='WatuPROPagination21' onclick='WatuPRO.goto(event, 21, true);'>21<\/li><li class='  decade-3' id='WatuPROPagination22' onclick='WatuPRO.goto(event, 22, true);'>22<\/li><li class='  decade-3' id='WatuPROPagination23' onclick='WatuPRO.goto(event, 23, true);'>23<\/li><li class='  decade-3' id='WatuPROPagination24' onclick='WatuPRO.goto(event, 24, true);'>24<\/li><li class='  decade-3' id='WatuPROPagination25' onclick='WatuPRO.goto(event, 25, true);'>25<\/li><li  class=\"rewind-up\" onclick=\"WatuPRO.movePaginator('up', 25);\">&gt;&gt;<\/li><\/ul><\/div><div class='watu-question ' id='question-1' style=';'><div id='questionWrap-1'  class='   watupro-question-id-5073'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>1. <\/span>Two particles of masses $m_1$ and $m_2$ in projectile motion have velocities $\\vec{v_1}<\\vec{v_2}$ respectively at time $t=0$. Thet collide at time $t_0$ . Their velocities become $\\vec{v'_1}$ and $\\vec{v'_2}$ at time $2t_0$, while still moving in air. The value of $\\left|\\left(m_1\\vec{v'_1}+m_2\\vec{v'_2}\\right)-\\left(m_1\\vec{v_1}+m_2\\vec{v_2}\\right)\\right|$ is<\/div><input type='hidden' name='question_id[]' id='qID_1' value='5073' class='watupro-question-id'\/><input type='hidden' id='answerType5073' class='answerTypeCnt1' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5073'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5073[]' id='answer-id-20160' class='answer   answerof-5073  ' value='20160'   \/><label for='answer-id-20160' id='answer-label-20160' class=' answer'><span>$\\left(m_1+m_2\\right)gt_0$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5073[]' id='answer-id-20161' class='answer   answerof-5073  ' value='20161'   \/><label for='answer-id-20161' id='answer-label-20161' class=' answer'><span>$2\\left(m_1+m_2\\right)gt_0$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5073[]' id='answer-id-20162' class='answer   answerof-5073  ' value='20162'   \/><label for='answer-id-20162' id='answer-label-20162' class=' answer'><span>$\\frac{1}{2}\\left(m_1+m_2\\right)gt_0$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5073[]' id='answer-id-20163' class='answer   answerof-5073  ' value='20163'   \/><label for='answer-id-20163' id='answer-label-20163' class=' answer'><span>zero<\/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-5074'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>2. <\/span>A string of negligible mass going over clamped pully of mass supports block of mass as shown in the figure.<br \/>\r\n<img loading=\"lazy\" decoding=\"async\" class=\"alignnone size-full wp-image-1806\" src=\"https:\/\/physicscatalyst.com\/testprep\/wp-content\/uploads\/2021\/02\/mass-pully.png\" alt=\"\" width=\"158\" height=\"266\" \/><br>The force on the pully by clamp is given by<\/div><input type='hidden' name='question_id[]' id='qID_2' value='5074' class='watupro-question-id'\/><input type='hidden' id='answerType5074' class='answerTypeCnt2' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5074'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5074[]' id='answer-id-20164' class='answer   answerof-5074  ' value='20164'   \/><label for='answer-id-20164' id='answer-label-20164' class=' answer'><span>$\\sqrt{2}Mg$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5074[]' id='answer-id-20165' class='answer   answerof-5074  ' value='20165'   \/><label for='answer-id-20165' id='answer-label-20165' class=' answer'><span>$\\sqrt2mg$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5074[]' id='answer-id-20166' class='answer   answerof-5074  ' value='20166'   \/><label for='answer-id-20166' id='answer-label-20166' class=' answer'><span>$\\sqrt{\\left(M+m\\right)^2+m^2}g$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5074[]' id='answer-id-20167' class='answer   answerof-5074  ' value='20167'   \/><label for='answer-id-20167' id='answer-label-20167' class=' answer'><span>$\\sqrt{\\left(M+m\\right)^2+M^2}g$<\/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-5075'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>3. <\/span>When a bicycle is in motion, the force of friction exerted by ground on the two wheels is such that, it acts<\/div><input type='hidden' name='question_id[]' id='qID_3' value='5075' class='watupro-question-id'\/><input type='hidden' id='answerType5075' class='answerTypeCnt3' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5075'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5075[]' id='answer-id-20168' class='answer   answerof-5075  ' value='20168'   \/><label for='answer-id-20168' id='answer-label-20168' class=' answer'><span>in the backward direction on the front wheel and in the forward direction on the rear wheel.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5075[]' id='answer-id-20169' class='answer   answerof-5075  ' value='20169'   \/><label for='answer-id-20169' id='answer-label-20169' class=' answer'><span>in the forward direction on the front wheel and in the backward direction on the rear wheel.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5075[]' id='answer-id-20170' class='answer   answerof-5075  ' value='20170'   \/><label for='answer-id-20170' id='answer-label-20170' class=' answer'><span>in the backward direction on both the front and the rear wheel.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5075[]' id='answer-id-20171' class='answer   answerof-5075  ' value='20171'   \/><label for='answer-id-20171' id='answer-label-20171' class=' answer'><span>in the forward direction on both front and the rear wheels.<\/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-5076'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>4. <\/span>A rocket with a lift-off mass $3.5\\times{10}^4Kg$ is blasted upwards with an initial acceleration of $10m\/s^2$. Then the initial thrust blast is<\/div><input type='hidden' name='question_id[]' id='qID_4' value='5076' class='watupro-question-id'\/><input type='hidden' id='answerType5076' class='answerTypeCnt4' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5076'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5076[]' id='answer-id-20172' class='answer   answerof-5076  ' value='20172'   \/><label for='answer-id-20172' id='answer-label-20172' class=' answer'><span>$3.5\\times{10}^5N$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5076[]' id='answer-id-20173' class='answer   answerof-5076  ' value='20173'   \/><label for='answer-id-20173' id='answer-label-20173' class=' answer'><span>$7.0\\times{10}^5N$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5076[]' id='answer-id-20174' class='answer   answerof-5076  ' value='20174'   \/><label for='answer-id-20174' id='answer-label-20174' class=' answer'><span>$14.0\\times{10}^5N$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5076[]' id='answer-id-20175' class='answer   answerof-5076  ' value='20175'   \/><label for='answer-id-20175' id='answer-label-20175' class=' answer'><span>$1.75\\times{10}^5N$<\/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-5077'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>5. <\/span>5 The block of mass $M$ is pulled along a horizontal frictionless surface by a rope of mass $m$. If a force $P$ is applied at the free end of the rope, the force exerted by the rope on the block is<\/div><input type='hidden' name='question_id[]' id='qID_5' value='5077' class='watupro-question-id'\/><input type='hidden' id='answerType5077' class='answerTypeCnt5' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5077'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5077[]' id='answer-id-20176' class='answer   answerof-5077  ' value='20176'   \/><label for='answer-id-20176' id='answer-label-20176' class=' answer'><span>$\\frac{Pm}{\\left(M+m\\right)}$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5077[]' id='answer-id-20177' class='answer   answerof-5077  ' value='20177'   \/><label for='answer-id-20177' id='answer-label-20177' class=' answer'><span>$\\frac{Pm}{\\left(M-m\\right)}$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5077[]' id='answer-id-20178' class='answer   answerof-5077  ' value='20178'   \/><label for='answer-id-20178' id='answer-label-20178' class=' answer'><span>$P$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5077[]' id='answer-id-20179' class='answer   answerof-5077  ' value='20179'   \/><label for='answer-id-20179' id='answer-label-20179' class=' answer'><span>$\\frac{PM}{\\left(M+m\\right)}$<\/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-5078'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>6. <\/span>Three forces start action simultaneously on a particle moving with velocity $\\vec{v}$. These forces are <br \/>\r\n<img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/physicscatalyst.com\/testprep\/wp-content\/uploads\/2021\/02\/question-triangle.png\" alt=\"\" width=\"338\" height=\"261\" class=\"alignnone size-full wp-image-1804\" \/><br>Represented in magnitude and direction by the three sides of a triangle $ABC$ as shown in the figure. The particle will now move with velocity<\/div><input type='hidden' name='question_id[]' id='qID_6' value='5078' class='watupro-question-id'\/><input type='hidden' id='answerType5078' class='answerTypeCnt6' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5078'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5078[]' id='answer-id-20180' class='answer   answerof-5078  ' value='20180'   \/><label for='answer-id-20180' id='answer-label-20180' class=' answer'><span>greater than $\\vec{v}$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5078[]' id='answer-id-20181' class='answer   answerof-5078  ' value='20181'   \/><label for='answer-id-20181' id='answer-label-20181' class=' answer'><span>$\\left|\\vec{v}\\right|$ in the direction of the largest force $BC$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5078[]' id='answer-id-20182' class='answer   answerof-5078  ' value='20182'   \/><label for='answer-id-20182' id='answer-label-20182' class=' answer'><span>$\\vec{v}$ remaining unchanged<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5078[]' id='answer-id-20183' class='answer   answerof-5078  ' value='20183'   \/><label for='answer-id-20183' id='answer-label-20183' class=' answer'><span>less than $\\vec{v}$<\/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-5079'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>7. <\/span>A lift is moving down with acceleration a. A man in the lift drops a ball inside the lift. The acceleration of the ball is observed by the man in the lift and a man standing stationary on the ground are respectively.<\/div><input type='hidden' name='question_id[]' id='qID_7' value='5079' class='watupro-question-id'\/><input type='hidden' id='answerType5079' class='answerTypeCnt7' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5079'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5079[]' id='answer-id-20184' class='answer   answerof-5079  ' value='20184'   \/><label for='answer-id-20184' id='answer-label-20184' class=' answer'><span>$g,g$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5079[]' id='answer-id-20185' class='answer   answerof-5079  ' value='20185'   \/><label for='answer-id-20185' id='answer-label-20185' class=' answer'><span>$g-a, g-a $<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5079[]' id='answer-id-20186' class='answer   answerof-5079  ' value='20186'   \/><label for='answer-id-20186' id='answer-label-20186' class=' answer'><span>$g-a, g$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5079[]' id='answer-id-20187' class='answer   answerof-5079  ' value='20187'   \/><label for='answer-id-20187' id='answer-label-20187' class=' answer'><span>$a,g$<\/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-5080'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>8. <\/span>A light spring balance hangs from the hook of the other light spring balance and a block of mass $M\\, Kg$ hangs from the former one. Then the true statement about the scale reading is<\/div><input type='hidden' name='question_id[]' id='qID_8' value='5080' class='watupro-question-id'\/><input type='hidden' id='answerType5080' class='answerTypeCnt8' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5080'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5080[]' id='answer-id-20188' class='answer   answerof-5080  ' value='20188'   \/><label for='answer-id-20188' id='answer-label-20188' class=' answer'><span>Both the scales read $M\\, Kg$ each<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5080[]' id='answer-id-20189' class='answer   answerof-5080  ' value='20189'   \/><label for='answer-id-20189' id='answer-label-20189' class=' answer'><span>The scale of the lower one read $M\\, Kg$ and of the upper one zero.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5080[]' id='answer-id-20190' class='answer   answerof-5080  ' value='20190'   \/><label for='answer-id-20190' id='answer-label-20190' class=' answer'><span>The reading of the two scales can be anything but the sum of readings will be $M\\, Kg$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5080[]' id='answer-id-20191' class='answer   answerof-5080  ' value='20191'   \/><label for='answer-id-20191' id='answer-label-20191' class=' answer'><span>Both the scales read $M\/2\\, Kg$<\/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-5081'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>9. <\/span>A block rests on a rough inclined plane making an angle of ${30}^0$  with the horizontal. The coefficient of static friction between the block and the plane is $0.8$. If the frictional force on the block is $10\\, N$, the mass of the block (in Kg) $\\left(g=10m\/s^2\\right)$ is <\/div><input type='hidden' name='question_id[]' id='qID_9' value='5081' class='watupro-question-id'\/><input type='hidden' id='answerType5081' class='answerTypeCnt9' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5081'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5081[]' id='answer-id-20192' class='answer   answerof-5081  ' value='20192'   \/><label for='answer-id-20192' id='answer-label-20192' class=' answer'><span>2.0<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5081[]' id='answer-id-20193' class='answer   answerof-5081  ' value='20193'   \/><label for='answer-id-20193' id='answer-label-20193' class=' answer'><span>4.0<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5081[]' id='answer-id-20194' class='answer   answerof-5081  ' value='20194'   \/><label for='answer-id-20194' id='answer-label-20194' class=' answer'><span>1.6<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5081[]' id='answer-id-20195' class='answer   answerof-5081  ' value='20195'   \/><label for='answer-id-20195' id='answer-label-20195' class=' answer'><span>2.5<\/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-5082'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>10. <\/span>A horizontal force of \u00a0is necessary to just hold a block stationary against a wall. The coefficient<br><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/physicscatalyst.com\/testprep\/wp-content\/uploads\/2021\/02\/question-figure-10.png\" alt=\"\" width=\"151\" height=\"153\" class=\"alignnone size-full wp-image-1803\" \/><br>Of friction between the block is 0.2. The weight of the block is  <\/div><input type='hidden' name='question_id[]' id='qID_10' value='5082' class='watupro-question-id'\/><input type='hidden' id='answerType5082' class='answerTypeCnt10' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5082'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5082[]' id='answer-id-20196' class='answer   answerof-5082  ' value='20196'   \/><label for='answer-id-20196' id='answer-label-20196' class=' answer'><span>20 N<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5082[]' id='answer-id-20197' class='answer   answerof-5082  ' value='20197'   \/><label for='answer-id-20197' id='answer-label-20197' class=' answer'><span>50 N<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5082[]' id='answer-id-20198' class='answer   answerof-5082  ' value='20198'   \/><label for='answer-id-20198' id='answer-label-20198' class=' answer'><span>100 N<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5082[]' id='answer-id-20199' class='answer   answerof-5082  ' value='20199'   \/><label for='answer-id-20199' id='answer-label-20199' class=' answer'><span>2 N<\/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-5083'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>11. <\/span>A smooth block is released at rest on a ${45}^0$ incline and then slides a distance $d$. The time taken to slide is $n$ times as much to slide on a rough incline than on a smooth incline. The coefficient of friction is <\/div><input type='hidden' name='question_id[]' id='qID_11' value='5083' class='watupro-question-id'\/><input type='hidden' id='answerType5083' class='answerTypeCnt11' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5083'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5083[]' id='answer-id-20200' class='answer   answerof-5083  ' value='20200'   \/><label for='answer-id-20200' id='answer-label-20200' class=' answer'><span>$\\mu_k=1-\\frac{1}{n^2}$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5083[]' id='answer-id-20201' class='answer   answerof-5083  ' value='20201'   \/><label for='answer-id-20201' id='answer-label-20201' class=' answer'><span>$\\mu_k=\\sqrt{1-\\frac{1}{n^2}}$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5083[]' id='answer-id-20202' class='answer   answerof-5083  ' value='20202'   \/><label for='answer-id-20202' id='answer-label-20202' class=' answer'><span>$\\mu_s=1-\\frac{1}{n^2}$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5083[]' id='answer-id-20203' class='answer   answerof-5083  ' value='20203'   \/><label for='answer-id-20203' id='answer-label-20203' class=' answer'><span>$\\mu_s=\\sqrt{1-\\frac{1}{n^2}}$<\/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-5084'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>12. <\/span>A particle is acted upon by a force of constant magnitude which is always perpendicular to the velocity of the particle. The motion of the particle takes place in a plane. It follows that<\/div><input type='hidden' name='question_id[]' id='qID_12' value='5084' class='watupro-question-id'\/><input type='hidden' id='answerType5084' class='answerTypeCnt12' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5084'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5084[]' id='answer-id-20204' class='answer   answerof-5084  ' value='20204'   \/><label for='answer-id-20204' id='answer-label-20204' class=' answer'><span>the velocity is constant<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5084[]' id='answer-id-20205' class='answer   answerof-5084  ' value='20205'   \/><label for='answer-id-20205' id='answer-label-20205' class=' answer'><span>its acceleration is constant<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5084[]' id='answer-id-20206' class='answer   answerof-5084  ' value='20206'   \/><label for='answer-id-20206' id='answer-label-20206' class=' answer'><span>its kinetic energy is constant<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5084[]' id='answer-id-20207' class='answer   answerof-5084  ' value='20207'   \/><label for='answer-id-20207' id='answer-label-20207' class=' answer'><span>it moves in a straight line<\/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-5085'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>13. <\/span>An annular ring with inner and outer radii $R_1$ and $R_2$ is rolling without slipping with a uniform angular speed. The ratio of the forces $F_1\/F_2$ experienced by two identical particles situated on the inner and outer parts of the ring is<\/div><input type='hidden' name='question_id[]' id='qID_13' value='5085' class='watupro-question-id'\/><input type='hidden' id='answerType5085' class='answerTypeCnt13' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5085'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5085[]' id='answer-id-20208' class='answer   answerof-5085  ' value='20208'   \/><label for='answer-id-20208' id='answer-label-20208' class=' answer'><span>$\\frac{R_2}{R_1}$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5085[]' id='answer-id-20209' class='answer   answerof-5085  ' value='20209'   \/><label for='answer-id-20209' id='answer-label-20209' class=' answer'><span>$\\left(\\frac{R_1}{R_2}\\right)^2$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5085[]' id='answer-id-20210' class='answer   answerof-5085  ' value='20210'   \/><label for='answer-id-20210' id='answer-label-20210' class=' answer'><span>$1$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5085[]' id='answer-id-20211' class='answer   answerof-5085  ' value='20211'   \/><label for='answer-id-20211' id='answer-label-20211' class=' answer'><span>$\\frac{R_1}{R_2}$<\/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-5086'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>14. <\/span>Two frictionless inclined planes making angles ${30}^0$ and ${60}^0$ with the vertical are shown in the figure. Two blocks A and B are placed on two planes<br \/>\r\n<br><img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/physicscatalyst.com\/testprep\/wp-content\/uploads\/2021\/02\/question-14-triangle.png\" alt=\"\" width=\"376\" height=\"204\" class=\"alignnone size-full wp-image-1802\" \/><br>What is the relative vertical acceleration of A with respect to B?<\/div><input type='hidden' name='question_id[]' id='qID_14' value='5086' class='watupro-question-id'\/><input type='hidden' id='answerType5086' class='answerTypeCnt14' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5086'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5086[]' id='answer-id-20212' class='answer   answerof-5086  ' value='20212'   \/><label for='answer-id-20212' id='answer-label-20212' class=' answer'><span>$4.9m\/s^2$ in vertical direction<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5086[]' id='answer-id-20213' class='answer   answerof-5086  ' value='20213'   \/><label for='answer-id-20213' id='answer-label-20213' class=' answer'><span>$4.9m\/s^2$ in horizontal direction<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5086[]' id='answer-id-20214' class='answer   answerof-5086  ' value='20214'   \/><label for='answer-id-20214' id='answer-label-20214' class=' answer'><span>$9.8m\/s^2$ in the vertical direction<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5086[]' id='answer-id-20215' class='answer   answerof-5086  ' value='20215'   \/><label for='answer-id-20215' id='answer-label-20215' class=' answer'><span>zero<\/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-5087'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>15. <\/span>Question 15 Which of the four arrangements in the figure correctly shows the vector addition of two forces $F_1$ and $F_2$ to yield the third force $F_3$ <br \/>\r\n<img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/physicscatalyst.com\/testprep\/wp-content\/uploads\/2021\/02\/question-15.png\" alt=\"\" width=\"553\" height=\"398\" class=\"alignnone size-full wp-image-1816\" \/><\/div><input type='hidden' name='question_id[]' id='qID_15' value='5087' class='watupro-question-id'\/><input type='hidden' id='answerType5087' class='answerTypeCnt15' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5087'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5087[]' id='answer-id-20216' class='answer   answerof-5087  ' value='20216'   \/><label for='answer-id-20216' id='answer-label-20216' class=' answer'><span>a<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5087[]' id='answer-id-20217' class='answer   answerof-5087  ' value='20217'   \/><label for='answer-id-20217' id='answer-label-20217' class=' answer'><span>b<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5087[]' id='answer-id-20218' class='answer   answerof-5087  ' value='20218'   \/><label for='answer-id-20218' id='answer-label-20218' class=' answer'><span>c<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5087[]' id='answer-id-20219' class='answer   answerof-5087  ' value='20219'   \/><label for='answer-id-20219' id='answer-label-20219' class=' answer'><span>d<\/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-5088'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>16. <\/span>A body of mass 5 Kg starts from the origin with an initial velocity  $\\vec{u}=\\left(30\\hat{i}+40\\hat{j}\\right) m\/s$. If a constant force $\\left(-6\\hat{i}-5\\hat{j}\\right)N$ acts on the body, the time in which y component of velocity becomes zero is<\/div><input type='hidden' name='question_id[]' id='qID_16' value='5088' class='watupro-question-id'\/><input type='hidden' id='answerType5088' class='answerTypeCnt16' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5088'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5088[]' id='answer-id-20220' class='answer   answerof-5088  ' value='20220'   \/><label for='answer-id-20220' id='answer-label-20220' class=' answer'><span>5 s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5088[]' id='answer-id-20221' class='answer   answerof-5088  ' value='20221'   \/><label for='answer-id-20221' id='answer-label-20221' class=' answer'><span>20 s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5088[]' id='answer-id-20222' class='answer   answerof-5088  ' value='20222'   \/><label for='answer-id-20222' id='answer-label-20222' class=' answer'><span>40 s<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5088[]' id='answer-id-20223' class='answer   answerof-5088  ' value='20223'   \/><label for='answer-id-20223' id='answer-label-20223' class=' answer'><span>80 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-5089'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>17. <\/span>Three blocks of mass 2 Kg, 3Kg, 5 Kg are connected to each other with a light string and are then placed on a frictionless surface as shown in the figure. The system is pulled by a force $F=10\\, N$, then tension $T_1$ is<br \/>\r\n<img loading=\"lazy\" decoding=\"async\" src=\"https:\/\/physicscatalyst.com\/testprep\/wp-content\/uploads\/2021\/02\/Question-17.png\" alt=\"\" width=\"409\" height=\"113\" class=\"alignnone size-full wp-image-1815\" \/><\/div><input type='hidden' name='question_id[]' id='qID_17' value='5089' class='watupro-question-id'\/><input type='hidden' id='answerType5089' class='answerTypeCnt17' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5089'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5089[]' id='answer-id-20224' class='answer   answerof-5089  ' value='20224'   \/><label for='answer-id-20224' id='answer-label-20224' class=' answer'><span>1 N<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5089[]' id='answer-id-20225' class='answer   answerof-5089  ' value='20225'   \/><label for='answer-id-20225' id='answer-label-20225' class=' answer'><span>5 N<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5089[]' id='answer-id-20226' class='answer   answerof-5089  ' value='20226'   \/><label for='answer-id-20226' id='answer-label-20226' class=' answer'><span>8 N<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5089[]' id='answer-id-20227' class='answer   answerof-5089  ' value='20227'   \/><label for='answer-id-20227' id='answer-label-20227' class=' answer'><span>10 N<\/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-5090'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>18. <\/span>A particle is moving in a circle with uniform speed $v$. In moving from a point to another diametrically opposite point,<\/div><input type='hidden' name='question_id[]' id='qID_18' value='5090' class='watupro-question-id'\/><input type='hidden' id='answerType5090' class='answerTypeCnt18' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5090'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5090[]' id='answer-id-20228' class='answer   answerof-5090  ' value='20228'   \/><label for='answer-id-20228' id='answer-label-20228' class=' answer'><span>the momentum changes by $mv$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5090[]' id='answer-id-20229' class='answer   answerof-5090  ' value='20229'   \/><label for='answer-id-20229' id='answer-label-20229' class=' answer'><span>the momentum changes by $2mv$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5090[]' id='answer-id-20230' class='answer   answerof-5090  ' value='20230'   \/><label for='answer-id-20230' id='answer-label-20230' class=' answer'><span>the kinetic energy changes by $\\frac{1}{2}mv^2$<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5090[]' id='answer-id-20231' class='answer   answerof-5090  ' value='20231'   \/><label for='answer-id-20231' id='answer-label-20231' class=' answer'><span>the kinetic energy changes by $mv^2$<\/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-5091'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>19. <\/span>A person is sitting in a lift accelerating upwards. The measured weight of a person will be,<\/div><input type='hidden' name='question_id[]' id='qID_19' value='5091' class='watupro-question-id'\/><input type='hidden' id='answerType5091' class='answerTypeCnt19' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5091'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5091[]' id='answer-id-20232' class='answer   answerof-5091  ' value='20232'   \/><label for='answer-id-20232' id='answer-label-20232' class=' answer'><span>less than actual weight<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5091[]' id='answer-id-20233' class='answer   answerof-5091  ' value='20233'   \/><label for='answer-id-20233' id='answer-label-20233' class=' answer'><span>equal to actual weight<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5091[]' id='answer-id-20234' class='answer   answerof-5091  ' value='20234'   \/><label for='answer-id-20234' id='answer-label-20234' class=' answer'><span>more than actual weight<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5091[]' id='answer-id-20235' class='answer   answerof-5091  ' value='20235'   \/><label for='answer-id-20235' id='answer-label-20235' class=' answer'><span>zero<\/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-5092'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>20. <\/span>Which of the following statements is true?<\/div><input type='hidden' name='question_id[]' id='qID_20' value='5092' class='watupro-question-id'\/><input type='hidden' id='answerType5092' class='answerTypeCnt20' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5092'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5092[]' id='answer-id-20236' class='answer   answerof-5092  ' value='20236'   \/><label for='answer-id-20236' id='answer-label-20236' class=' answer'><span>velocity of light is constant in all media<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5092[]' id='answer-id-20237' class='answer   answerof-5092  ' value='20237'   \/><label for='answer-id-20237' id='answer-label-20237' class=' answer'><span>velocity of light in vacuum is maximum<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5092[]' id='answer-id-20238' class='answer   answerof-5092  ' value='20238'   \/><label for='answer-id-20238' id='answer-label-20238' class=' answer'><span>velocity of light is same in all reference frames<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5092[]' id='answer-id-20239' class='answer   answerof-5092  ' value='20239'   \/><label for='answer-id-20239' id='answer-label-20239' class=' answer'><span>Laws of nature have identical form in all reference frames.<\/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-5093'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>21. <\/span>In following question, a statement of assertion is followed by a statement of reason. Mark the correct choice.<br \/>\r\n<strong>Assertion:<\/strong> A rocket moves forward by pushing surrounding air backwards.<br \/>\r\n<strong>Reason:<\/strong> It derives the necessary thrust to move forward, according to Newton\u2019s third law of motion.<br \/>\r\n<\/div><input type='hidden' name='question_id[]' id='qID_21' value='5093' class='watupro-question-id'\/><input type='hidden' id='answerType5093' class='answerTypeCnt21' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5093'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5093[]' id='answer-id-20240' class='answer   answerof-5093  ' value='20240'   \/><label for='answer-id-20240' id='answer-label-20240' class=' answer'><span>If both assertion and reason are true and reason is the correct explanation of assertion<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5093[]' id='answer-id-20241' class='answer   answerof-5093  ' value='20241'   \/><label for='answer-id-20241' id='answer-label-20241' class=' answer'><span>If both assertion and reason are true but reason is not correct explanation of assertion.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5093[]' id='answer-id-20242' class='answer   answerof-5093  ' value='20242'   \/><label for='answer-id-20242' id='answer-label-20242' class=' answer'><span>If assertion is true and reason is false.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5093[]' id='answer-id-20243' class='answer   answerof-5093  ' value='20243'   \/><label for='answer-id-20243' id='answer-label-20243' class=' answer'><span>If both assertion and reason are false.<\/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-5094'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>22. <\/span>In following question, a statement of assertion is followed by a statement of reason. Mark the correct choice.<br \/>\r\n<strong>Assertion:<\/strong> Frictional forces are conservative forces.<br \/>\r\n<strong>Reason:<\/strong> Potential energy can be associated with frictional forces<br \/>\r\n<\/div><input type='hidden' name='question_id[]' id='qID_22' value='5094' class='watupro-question-id'\/><input type='hidden' id='answerType5094' class='answerTypeCnt22' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5094'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5094[]' id='answer-id-20244' class='answer   answerof-5094  ' value='20244'   \/><label for='answer-id-20244' id='answer-label-20244' class=' answer'><span>If both assertion and reason are true and reason is the correct explanation of assertion<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5094[]' id='answer-id-20245' class='answer   answerof-5094  ' value='20245'   \/><label for='answer-id-20245' id='answer-label-20245' class=' answer'><span>If both assertion and reason are true but reason is not correct explanation of assertion.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5094[]' id='answer-id-20246' class='answer   answerof-5094  ' value='20246'   \/><label for='answer-id-20246' id='answer-label-20246' class=' answer'><span>If assertion is true and reason is false.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5094[]' id='answer-id-20247' class='answer   answerof-5094  ' value='20247'   \/><label for='answer-id-20247' id='answer-label-20247' class=' answer'><span>If both assertion and reason are false.<\/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-5095'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>23. <\/span>In following question, a statement of assertion is followed by a statement of reason. Mark the correct choice.<br \/>\r\n<strong>Assertion:<\/strong> The driver in a vehicle moving with a constant speed on a straight road is a non-inertial frame of reference.<br \/>\r\n<strong>Reason:<\/strong> A reference frame, in which Newton\u2019s laws of motion are applicable are, is non inertial.<br \/>\r\n<\/div><input type='hidden' name='question_id[]' id='qID_23' value='5095' class='watupro-question-id'\/><input type='hidden' id='answerType5095' class='answerTypeCnt23' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5095'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5095[]' id='answer-id-20248' class='answer   answerof-5095  ' value='20248'   \/><label for='answer-id-20248' id='answer-label-20248' class=' answer'><span>If both assertion and reason are true and reason is the correct explanation of assertion<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5095[]' id='answer-id-20249' class='answer   answerof-5095  ' value='20249'   \/><label for='answer-id-20249' id='answer-label-20249' class=' answer'><span>If both assertion and reason are true but reason is not correct explanation of assertion.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5095[]' id='answer-id-20250' class='answer   answerof-5095  ' value='20250'   \/><label for='answer-id-20250' id='answer-label-20250' class=' answer'><span>If assertion is true and reason is false.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5095[]' id='answer-id-20251' class='answer   answerof-5095  ' value='20251'   \/><label for='answer-id-20251' id='answer-label-20251' class=' answer'><span>If both assertion and reason are false.<\/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-5096'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>24. <\/span>In following question, a statement of assertion is followed by a statement of reason. Mark the correct choice.<br \/>\r\n<strong>Assertion:<\/strong> A man in a closed cabin, which is falling freely, does not experience gravity.<br \/>\r\n<strong>Reason:<\/strong> Inertial and gravitational masses have equivalence.<br \/>\r\n<\/div><input type='hidden' name='question_id[]' id='qID_24' value='5096' class='watupro-question-id'\/><input type='hidden' id='answerType5096' class='answerTypeCnt24' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5096'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5096[]' id='answer-id-20252' class='answer   answerof-5096  ' value='20252'   \/><label for='answer-id-20252' id='answer-label-20252' class=' answer'><span>If both assertion and reason are true and reason is the correct explanation of assertion<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5096[]' id='answer-id-20253' class='answer   answerof-5096  ' value='20253'   \/><label for='answer-id-20253' id='answer-label-20253' class=' answer'><span>If both assertion and reason are true but reason is not correct explanation of assertion.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5096[]' id='answer-id-20254' class='answer   answerof-5096  ' value='20254'   \/><label for='answer-id-20254' id='answer-label-20254' class=' answer'><span>If assertion is true and reason is false.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5096[]' id='answer-id-20255' class='answer   answerof-5096  ' value='20255'   \/><label for='answer-id-20255' id='answer-label-20255' class=' answer'><span>If both assertion and reason are false.<\/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-5097'>\n\t\t\t<div class='question-content'><div><span class='watupro_num'>25. <\/span>In following question, a statement of assertion is followed by a statement of reason. Mark the correct choice.<br \/>\r\n<strong>Assertion:<\/strong> It is difficult to move a cycle along the road with its break on.<br \/>\r\n<strong>Reason:<\/strong> Sliding friction is greater than rolling friction.<br \/>\r\n<\/div><input type='hidden' name='question_id[]' id='qID_25' value='5097' class='watupro-question-id'\/><input type='hidden' id='answerType5097' class='answerTypeCnt25' value='radio'><!-- end question-content--><\/div><div class='question-choices watupro-choices-columns '  id='questionChoices5097'><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5097[]' id='answer-id-20256' class='answer   answerof-5097  ' value='20256'   \/><label for='answer-id-20256' id='answer-label-20256' class=' answer'><span>If both assertion and reason are true and reason is the correct explanation of assertion<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5097[]' id='answer-id-20257' class='answer   answerof-5097  ' value='20257'   \/><label for='answer-id-20257' id='answer-label-20257' class=' answer'><span>If both assertion and reason are true but reason is not correct explanation of assertion.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5097[]' id='answer-id-20258' class='answer   answerof-5097  ' value='20258'   \/><label for='answer-id-20258' id='answer-label-20258' class=' answer'><span>If assertion is true and reason is false.<\/span><\/label><\/div><div class='watupro-question-choice  ' dir='auto' ><input type='radio' name='answer-5097[]' id='answer-id-20259' class='answer   answerof-5097  ' value='20259'   \/><label for='answer-id-20259' id='answer-label-20259' class=' answer'><span>If both assertion and reason are false.<\/span><\/label><\/div><!-- end question-choices--><\/div><!-- end questionWrap--><\/div><\/div><div style='display:none' id='question-26'>\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...\" \/>&nbsp;Loading...\t<\/div>\n<\/div>\n\n<br \/>\n\t\n\t\t\t<div class=\"watupro_buttons flex \" id=\"watuPROButtons289\" >\n\t\t  <div id=\"prev-question\" style=\"display:none;\"><input type=\"button\" value=\"&lt; 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   \t \n<\/script>\n\n\n\n\n<hr class=\"wp-block-separator\"\/>\n\n\n\n<p><strong>Reference Books for class 11<\/strong><\/p>\n\n\n\n<p>Given below are the links of some of the reference books for class 11<\/p>\n\n\n\n<ul class=\"wp-block-list\"><li><a href=\"https:\/\/www.amazon.in\/gp\/product\/8126536047\/ref=as_li_tl?ie=UTF8&amp;camp=3626&amp;creative=24822&amp;creativeASIN=8126536047&amp;linkCode=as2&amp;tag=physicscataly-21\" target=\"_blank\" rel=\"noreferrer noopener\">Principles of Physics Extended (International Student Version) (WSE)<\/a><\/li><li><a href=\"https:\/\/www.amazon.in\/gp\/product\/8131790274\/ref=as_li_tl?ie=UTF8&amp;camp=3626&amp;creative=24822&amp;creativeASIN=8131790274&amp;linkCode=as2&amp;tag=physicscataly-21\" target=\"_blank\" rel=\"noreferrer noopener\">university physics with modern physics by Hugh D. Young 13th edition<\/a><\/li><li><a href=\"https:\/\/www.amazon.in\/gp\/product\/8177091875\/ref=as_li_tl?ie=UTF8&amp;camp=3626&amp;creative=24822&amp;creativeASIN=8177091875&amp;linkCode=as2&amp;tag=physicscataly-21\" target=\"_blank\" rel=\"noreferrer noopener\">H.C. Verma Concepts of Physics &#8211; Vol. 1<\/a><\/li><li><a rel=\"noreferrer noopener\" href=\"https:\/\/www.amazon.in\/gp\/product\/9383182350\/ref=as_li_tl?ie=UTF8&amp;camp=3626&amp;creative=24822&amp;creativeASIN=9383182350&amp;linkCode=as2&amp;tag=physicscataly-21\" target=\"_blank\">Mathematics &#8211; Class 11 by RD Sharma<\/a><\/li><li><a rel=\"noreferrer noopener\" href=\"https:\/\/www.amazon.in\/gp\/product\/9352031490\/ref=as_li_tl?ie=UTF8&amp;camp=3626&amp;creative=24822&amp;creativeASIN=9352031490&amp;linkCode=as2&amp;tag=physicscataly-21\" target=\"_blank\">Play with Graphs &#8211; Skills in Mathematics for JEE Main and Advanced<\/a><\/li><\/ul>\n\n\n\n<p><strong>Disclaimer<\/strong><\/p>\n\n\n\n<p>Hey there readers!<\/p>\n\n\n\n<p>Certain products\/services and links to products\/services are affiliate links, and I may earn a commission for any purchases that you make. Occasionally, I am compensated to give my honest opinion on products and\/or services. This will not incur additional cost to you.<\/p>\n\n\n\n<p>I mention these products and services to you because I believe in them and want to help you with your studies. I only recommend products or services that I feel deliver value to you. With full disclosure, of course, Physicscatalyst is a for-profit business, which means I do earn an income with this website.<\/p>\n\n\n\n<p>To make it easy on the both of us, you should assume that any links leading you to products or services are affiliate links and that I will receive a commission from your purchase.<\/p>\n\n\n\n<p>All efforts are made to ensure that affiliate links are disclosed in accordance with the FTC.<\/p>\n\n\n\n<p>Let me know if you have any questions.<\/p>\n\n\n\n<p>Thanks!<\/p>\n","protected":false},"excerpt":{"rendered":"<p>Practice class 11 physics chapter 5 Laws of Motion objective type questions through this online test. This is a very important chapter for preparation of competitive exams point of view. Laws of Motion Online MCQ Test<\/p>\n","protected":false},"author":1,"featured_media":0,"comment_status":"open","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"site-sidebar-layout":"default","site-content-layout":"","ast-site-content-layout":"default","site-content-style":"default","site-sidebar-style":"default","ast-global-header-display":"","ast-banner-title-visibility":"","ast-main-header-display":"","ast-hfb-above-header-display":"","ast-hfb-below-header-display":"","ast-hfb-mobile-header-display":"","site-post-title":"","ast-breadcrumbs-content":"","ast-featured-img":"","footer-sml-layout":"","theme-transparent-header-meta":"","adv-header-id-meta":"","stick-header-meta":"","header-above-stick-meta":"","header-main-stick-meta":"","header-below-stick-meta":"","astra-migrate-meta-layouts":"default","ast-page-background-enabled":"default","ast-page-background-meta":{"desktop":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"tablet":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"mobile":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""}},"ast-content-background-meta":{"desktop":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"tablet":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""},"mobile":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-opacity":"","overlay-gradient":""}},"footnotes":""},"categories":[24],"tags":[],"class_list":["post-1807","post","type-post","status-publish","format-standard","hentry","category-class-11-physics"],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v27.4 - https:\/\/yoast.com\/product\/yoast-seo-wordpress\/ -->\n<title>Online Test For Class 11 Physics Laws of Motion - MCQ Online Test<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/physicscatalyst.com\/testprep\/class-11-physics\/online-test-laws-of-motion\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Online Test For Class 11 Physics Laws of Motion - MCQ Online Test\" \/>\n<meta property=\"og:description\" content=\"Practice class 11 physics chapter 5 Laws of Motion objective type questions through this online test. 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