{"id":210,"date":"2018-12-06T17:11:36","date_gmt":"2018-12-06T11:41:36","guid":{"rendered":"http:\/\/www.physicsacademyonline.com\/blog\/?p=210"},"modified":"2021-02-25T14:03:26","modified_gmt":"2021-02-25T08:33:26","slug":"tips-to-solve-physics-jee-advanced-2018-questions-iv","status":"publish","type":"post","link":"https:\/\/www.physicsacademyonline.com\/blog\/jee-advanced-preparation\/tips-to-solve-physics-jee-advanced-2018-questions-iv.html","title":{"rendered":"Tips to Solve Physics JEE (Advanced) 2018 Questions – IV"},"content":{"rendered":"

Let\u00a0Us<\/del> <\/em><\/i>YOU<\/span> Solve Physics JEE (Advanced 2018) Questions:<\/i><\/h3>\n

In continuation from the previous blog, we are guiding students to solve JEE (Advanced) 2018, Physics Paper-2 by their own effort. Let us move to Section 2 next. The answer of each problem is a numerical value, up to the second decimal point. Full marks for correct answer; zero marks for incomplete calculation or no attempt.<\/p>\n

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Question 7<\/u>:\u00a0 A solid horizontal surface is covered with a thin layer of oil. A rectangular block of mass m = 0.4 kg is at rest on this surface. An impulse of 1.0 N-s is applied to the block at time t = 0 so that it starts moving along the x-axis with a velocity v(t) = v0<\/sub> e– t \/ <\/sup>\u03c4<\/sup><\/i> , where v0<\/sub> is a constant and \u03c4<\/i> = 4 s. The displacement of the block in metres at t = \u03c4<\/i>\u00a0 is\u00a0 ______________ . Take e-1<\/sup> = 0.37.<\/p>\n

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The mass of the block is known; the impulse applied to the block is known. How do you calculate the velocity, v0 <\/sub>, acquired by the block immediately after the impulse (at t = 0)? Subscribe to\u00a0 www.physicsacademyonline.com<\/a>, and learn from this lecture: Chapter Name \u2013 Mechanics; Category \u2013\u00a0 Basic; Topic Name \u2013 Impulse, Collision, and Centre of Mass; Video Name \u2013 Impulse, and Impulse-Momentum Theorem.<\/span><\/i><\/p>\n

Next, express instantaneous velocity, v, in derivative form. You may have already watched: Chapter Name \u2013 Mechanics; Category \u2013\u00a0 Basic; Topic Name \u2013 Motion in One and Two Dimensions; Video Name \u2013 Graphical Analysis of Rectilinear Motion.<\/span><\/i><\/p>\n

Separate the variables, integrate between limits, and the answer follows. You will require some basic technique of integration.<\/p>\n

By the way, can you recognise the motion of the block? It is resisted motion under drag force exerted by the oil layer, and the quantity \u03c4<\/i>\u00a0 is called “time constant”. Interested students can follow here: Chapter Name \u2013 Mechanics; Category \u2013\u00a0 Basic; Topic Name \u2013 Friction; Video Name \u2013 Drag Force.<\/span><\/i><\/p>\n