Practice Questions
10,171 questions across 23 years of JEE Main β find and practise any topic!
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Q21.A ball rolls off the top of a stairway with horizontal velocity u. The steps are 0. 1 m high and 0. 1 m wide. The minimum velocity u with which that ball just hits the step 5 of the stairway will be βx m sβ1 , where x = _______ [use g = 10 m sβ2 ].
Q21.The resultant of two vectors βA and βB is perpendicular to βA and its magnitude is half that of βB. The angle between vectors βA and βB is ______ β.
Q21.A particle starts from origin at t = 0 with a velocity 5Λi m sβ1 and moves in x βy plane under action of a force which produces a constant acceleration of + m sβ2 . If the x-coordinate of the particle at that instant is (3Λi 2Λj) 84 m, then the speed of the particle at this time is βΞ± m sβ1 . The value of Ξ± is _______.
Q21.Three vectors OP,β OQβ and ORβ each of magnitude A are acting as shown in figure. The resultant of the three vectors is Aβx. The value of x is ________ .
Q21.A body of mass M thrown horizontally with velocity v from the top of the tower of height H touches the ground at a distance of 100 m from the foot of the tower. A body of mass 2M thrown at a velocity 2v from the top of the tower of height 4H will touch the ground at a distance of _____ m . JEE Main 2024 (08 Apr Shift 2) JEE Main Previous Year Paper
Q21.A body moves on a frictionless plane starting from rest. If Sn is distance moved between t = n β1 and t = n and Snβ1 is distance moved between t = n β2 and t = n β1, then the ratio Snβ1 is (1 β2x ) for n = 10 . The Sn value of x is ______.
Q21.A body falling under gravity covers two points A and B separated by 80 m in 2 s. The distance of upper point A from the starting point is _____m. Use g = 10 m s-2
Q21.A particle moves in a straight line so that its displacement x at any time t is given by x2 = 1 + t2 . Its acceleration at any time t is xβn where n = ___________
Q21.A particle initially at rest starts moving from reference point π₯= 0 along π₯-axis, with velocity π£ that varies as π£= 4βπ₯ m s-1. The acceleration of the particle is _____ m s-2.
Q21.Two forces Β―F1 and Β―F2 are acting on a body. One force has magnitude thrice that of the other force and the 1 ) resultant of the two forces is equal to the force of larger magnitude. The angle between βF1 and βF2 is cosβ1 ( n . The value of |n| is _____.
Q21.Two identical spheres each of mass 2 kg and radius 50 cm are fixed at the ends of a light rod so that the separation between the centers is 150 cm. Then, moment of inertia of the system about an axis perpendicular to the rod and passing through its middle point is π₯ kg m2, where the value of π₯ is 20
Q21.The displacement and the increase in the velocity of a moving particle in the time interval of t to (t + 1) s are 125 m and 50 m sβ1 , respectively. The distance travelled by the particle in (t + 2)th s is ___________ m .
Q22.In a system two particles of masses m1 = 3 kg and m2 = 2 kg are placed at certain distance from each other. The particle of mass m1 is moved towards the center of mass of the system through a distance 2 cm . In order to keep the center of mass of the system at the original position, the particle of mass m2 should move towards the center of mass by the distance _____ cm .
Q22.A cylinder is rolling down on an inclined plane of inclination 60Β°. Its acceleration during rolling down will be x m sβ2 , where x = _______(use g = 10 m sβ2 ). β3
Q22.A string is wrapped around the rim of a wheel of moment of inertia 0.40kgm2 and radius 10 cm. The wheel is free to rotate about its axis. Initially the wheel is at rest. The string is now pulled by a force of 40 N. The angular velocity of the wheel after 10 s is xrad/s, where x is _______
Q22.If the radius of earth is reduced to three-fourth of its present value without change in its mass then value of duration of the day of earth will be ______ hours 30 minutes.
Q22.Four particles, each of mass 1 kg are placed at four corners of a square of side 2 m . The moment of inertia of the system about an axis perpendicular to its plane and passing through one of its vertex is ______ kg m2 .
Q22.A body of mass 5 kg moving with a uniform speed 3β2 m sβ1 in X βY plane along the line y = x + 4. The angular momentum of the particle about the origin will be _______ kg m2 sβ1 .
Q22.A hollow sphere is rolling on a plane surface about its axis of symmetry. The ratio of rotational kinetic energy to its total kinetic energy is x . The value of x is _____ . 5
Q22.Three blocks M1, M2, M3 having masses 4 kg, 6 kg and 10 kg respectively are hanging from a smooth pully using rope 1,2 and 3 as shown in figure. The tension in the rope 1, T1 when they are moving upward with JEE Main 2024 (05 Apr Shift 1) JEE Main Previous Year Paper acceleration of 2 msβ2 is _____ N ( if g = 10 m/s2 ).
Q22.A ring and a solid sphere roll down the same inclined plane without slipping. They start from rest. The radii of x is ______. both bodies are identical and the ratio of their kinetic energies is 7x, where
Q22.The identical spheres each of mass 2π are placed at the corners of a right angled triangle with mutually perpendicular sides equal to 4 m each. Taking point of intersection of these two sides as origin, the 4β2 magnitude of position vector of the centre of mass of the system is π₯, where the value of π₯ is ________.
Q22.A solid circular disc of mass 50 kg rolls along a horizontal floor so that its center of mass has a speed of 0 . 4 m s-1. The absolute value of work done on the disc to stop it is ______ J.
Q22.Two discs of moment of inertia πΌ1 = 4 kg m2 and πΌ2 = 2 kg m2 about their central axes & normal to their planes, rotating with angular speeds 10 rad s-1 & 4 rad s-1 respectively are brought into contact face to face with their axe of rotation coincident. The loss in kinetic energy of the system in the process is _________J .
Q22.A uniform thin metal plate of mass 10 kg with dimensions is shown. The ratio of x and y coordinates of center of mass of plate in n . The value of n is ________ 9