Chapter 8 – COM, Momentum and Collision
Sahay Sir > Question Answers > Cengage JEE Mains Physics by B.M Sharma > Chapter 8 - COM, Momentum and Collision
A ball is dropped from a height of 45m from the ground. The coefficient of restitution between the ball and the ground is 2/3. What is the distance travelled by the ball in 4th second of its motion. Assume negligible time is spent in rebounding. Let g=10ms^2
20
Oct
A ball is dropped from a height of 45m from the ground. The coefficient of restitution between the ball and the ground is 2/3. What is the distance travelled by the ball in 4th second of its motion. Assume negligible time is spent in rebounding. Let g=10ms^2 An object initially at rest explodes into three [...]
Figure shows the velocity-time graph for two masses R and S that collided elastically. Which of the following statements is true?
20
Oct
Figure shows the velocity-time graph for two masses R and S that collided elastically. Which of the following statements is true? Figure shows the velocity-time graph for two masses R and S that collided elastically. Which of the following statements is true? October 20, 2020 Category: Cengage JEE Mains Physics by B.M Sharma , Chapter [...]
A gun which fires small balls of mass 20 g is firing 20 balls per second on the smooth horizontal table surface ABCD. If the collision is perfectly elastic and balls are striking at the centre of table with a speed of 5m/s at an angle of 60^∘ with the vertical just before collision, then force exerted by one of the legs on ground is (assume total weight of the table is 0.2kg)
20
Oct
A gun which fires small balls of mass 20 g is firing 20 balls per second on the smooth horizontal table surface ABCD. If the collision is perfectly elastic and balls are striking at the centre of table with a speed of 5m/s at an angle of 60^∘ with the vertical just before collision, then [...]
A particle of mass m moving with velocity 1m/s collides perfectly elastically with another particle of mass 2m. If the incident particle is deflected by 90^∘. The heavy mass will make and angle θ with the initial direction of m equal to:
20
Oct
A particle of mass m moving with velocity 1m/s collides perfectly elastically with another particle of mass 2m. If the incident particle is deflected by 90^∘. The heavy mass will make and angle θ with the initial direction of m equal to: An object initially at rest explodes into three fragments A B and C. [...]
A particle of mass m1 moving with velocity v in a positive direction collides elastically with a mass m2 moving in opposite direction also at velocity v. If m2>>m1, then
20
Oct
A particle of mass m1 moving with velocity v in a positive direction collides elastically with a mass m2 moving in opposite direction also at velocity v. If m2>>m1, then A particle of mass m1 moving with velocity v in a positive direction collides elastically with a mass m2 moving in opposite direction also at [...]
Two equal spheres A and B lie on a smooth horizontal circular groove at opposite ends of a diameter. At time t=0, A is projected along the groove and it first impinges on B at time t=T1 and again at time t=T2. If e is the coefficient of restitution, the ratio T2/T1 is
20
Oct
Two equal spheres A and B lie on a smooth horizontal circular groove at opposite ends of a diameter. At time t=0, A is projected along the groove and it first impinges on B at time t=T1 and again at time t=T2. If e is the coefficient of restitution, the ratio T2/T1 is A is [...]
A smooth sphere is moving on a horizontal surface with velocity vector 2iˆ+2jˆ immediately before it hits a vertical wall. The wall is parallel to jˆ vector and the coefficient of restitution between the sphere and the wall is e=1/2. The velocity vector of the sphere after it hits the wall is
20
Oct
A smooth sphere is moving on a horizontal surface with velocity vector 2iˆ+2jˆ immediately before it hits a vertical wall. The wall is parallel to jˆ vector and the coefficient of restitution between the sphere and the wall is e=1/2. The velocity vector of the sphere after it hits the wall is An object initially [...]
Two pendulums each of length l are initially situated as shown in Fig. The first pendulum is released and strikes the second. Assume that the collision is completely inelastic and neglect the mass of the string and any frictional effects. How high does the centre of mass rise after the collision?
20
Oct
Two pendulums each of length l are initially situated as shown in Fig. The first pendulum is released and strikes the second. Assume that the collision is completely inelastic and neglect the mass of the string and any frictional effects. How high does the centre of mass rise after the collision? An object initially at [...]
A ball is let fall from a height h0. There are n collisions with the earth. If the velocity of rebound after n collision is vn and the ball rises to a height hn then coefficient of restitution e is given by
20
Oct
A ball is let fall from a height h0. There are n collisions with the earth. If the velocity of rebound after n collision is vn and the ball rises to a height hn then coefficient of restitution e is given by An object initially at rest explodes into three fragments A B and C. [...]
A stationary body of mass 3kg explodes into three equal pieces. Two of the pieces fly off at right angles to each other. One with a velocity of 2iˆm/s and the other with velocity of 3iˆm/s. If the explosion takes place in 10^−5 the average force acting on the third piece in newtons
20
Oct
A stationary body of mass 3kg explodes into three equal pieces. Two of the pieces fly off at right angles to each other. One with a velocity of 2iˆm/s and the other with velocity of 3iˆm/s. If the explosion takes place in 10^−5 the average force acting on the third piece in newtons An object [...]