then during the impact

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A particle with a mass of 1 kg a velocity of is having 10 m/s in +ve x-direction at t = 0. Forces F→1 and F→2, act on the particle whose magnitudes are changing with time according to the variation shown in Fig. The magnitude of the velocity of the particle at t = 3 s (neglect gravity effect) is found to be root 5 n . Find the value of
24
Sep
A particle with a mass of 1 kg a velocity of is having 10 m/s in +ve x-direction at t = 0. Forces F→1 and F→2, act on the particle whose magnitudes are changing with time according to the variation shown in Fig. The magnitude of the velocity of the particle at t = 3 [...]
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Tags: A particle of mass m makes an elastic head on collision with a stationery particle of mass 2m. If initial kinetic energy is moving particle is 6 j , A particle with a mass of 1 kg a velocity of is having 10 m/s in +ve x-direction at t = 0. Forces F→1 and F→2 , then during the impact , Three balls A ,
Three balls A, B and C( mA = mC= 4 mB ) are placed on a smooth horizontal surface. Ball B collides with ball C with an initial velocity v as shown in figure. Find the total number of collision between the balls (all collisions are elastic).
24
Sep
Three balls A, B and C( mA = mC= 4 mB ) are placed on a smooth horizontal surface. Ball B collides with ball C with an initial velocity v as shown in figure. Find the total number of collision between the balls (all collisions are elastic). A particle of mass m makes an elastic [...]
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Tags: A particle of mass m makes an elastic head on collision with a stationery particle of mass 2m. If initial kinetic energy is moving particle is 6 j , then during the impact , Three balls A ,
A bullet is fired on a fixed target. It penetrates inside the target through distance d = 3.75 cm and then stops. mass of the bullet is m = 1 kg and of the target is M = 4 kg. Now an identical bullet moving with the same velocity is fired on the identical target which is placed at rest on a frictionless horizontal surface. Then find the distance (in cm) to which the bullet will penetrate inside the target?
24
Sep
A bullet is fired on a fixed target. It penetrates inside the target through distance d = 3.75 cm and then stops. mass of the bullet is m = 1 kg and of the target is M = 4 kg. Now an identical bullet moving with the same velocity is fired on the identical target [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A particle of mass m makes an elastic head on collision with a stationery particle of mass 2m. If initial kinetic energy is moving particle is 6 j , then during the impact ,
A small sphere of mass m = 1 kg is moving with a velocity (4 i ^− j ^ ​ )m/s. It hits fixed smooth wall and rebounds with velocity ( i ^ +3 j ^ ​ )m/s. The coefficient of restitution between the sphere and the wall is n/16. Find the value of n.
24
Sep
A small sphere of mass m = 1 kg is moving with a velocity (4 i ^− j ^ ​ )m/s. It hits fixed smooth wall and rebounds with velocity ( i ^ +3 j ^ ​ )m/s. The coefficient of restitution between the sphere and the wall is n/16. Find the value of n. [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A particle of mass m makes an elastic head on collision with a stationery particle of mass 2m. If initial kinetic energy is moving particle is 6 j , then during the impact ,
A ball of mass 1 kg moving with a velocity of 5 m/s collides elastically with rough ground at an angle θ with the vertical as shown in Fig. What can be the minimum coefficient of friction if ball rebounds vertically after collision? (given tanθ = 2)
24
Sep
A ball of mass 1 kg moving with a velocity of 5 m/s collides elastically with rough ground at an angle θ with the vertical as shown in Fig. What can be the minimum coefficient of friction if ball rebounds vertically after collision? (given tanθ = 2) A particle of mass m makes an elastic [...]
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Tags: A particle of mass m makes an elastic head on collision with a stationery particle of mass 2m. If initial kinetic energy is moving particle is 6 j , then during the impact ,
N beads identical beads are resting on a smooth horizontal wire which is circular at the end with radius r=0.5m as shown in the figure. Find the minimum velocity which should be imparted to the first bead such that nth bead will fall in the tank after completing full circle in vertical plane as shown in the figure. Take all the collisions between the beads elastic (e = 1).
24
Sep
N beads identical beads are resting on a smooth horizontal wire which is circular at the end with radius r=0.5m as shown in the figure. Find the minimum velocity which should be imparted to the first bead such that nth bead will fall in the tank after completing full circle in vertical plane as shown [...]
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Tags: A particle of mass m makes an elastic head on collision with a stationery particle of mass 2m. If initial kinetic energy is moving particle is 6 j , then during the impact ,
Two identical blocks P and Q have mass m each. They are attached to two identical springs initially unstretched. Now the left spring (along with P) is compressed by 2 A ​ and the right spring (along with Q) is compressed by A. Both the blocks are released simultaneously. They collide perfectly inelastically. Initially time period of both the block was T. The time period of oscillation of combined mass is
24
Sep
Two identical blocks P and Q have mass m each. They are attached to two identical springs initially unstretched. Now the left spring (along with P) is compressed by 2 A ​ and the right spring (along with Q) is compressed by A. Both the blocks are released simultaneously. They collide perfectly inelastically. Initially time [...]
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Tags: A particle of mass m makes an elastic head on collision with a stationery particle of mass 2m. If initial kinetic energy is moving particle is 6 j , then during the impact ,
Two masses A and B of 3 kg and 2 kg are connected by a long inextensible string which passes over a massless and frictionless pulley. Initially the height of both the masses from the ground is same and equal to 1 metre. When the masses are released. Mass A hits the ground and gets stuck to the ground. Consider the length of the string as large, so that the pulley does not obstruct the motion of masses A and B
24
Sep
Two masses A and B of 3 kg and 2 kg are connected by a long inextensible string which passes over a massless and frictionless pulley. Initially the height of both the masses from the ground is same and equal to 1 metre. When the masses are released. Mass A hits the ground and gets [...]
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Tags: A particle of mass m makes an elastic head on collision with a stationery particle of mass 2m. If initial kinetic energy is moving particle is 6 j , then during the impact ,
A ball of mass m = 200 gm is suspended from a point A by an inextensible string of length L. Ball is drawn to a side and held at same level as A but at a distance root 3/2 L from A as shown. Now the ball is released. Then :( assume string applies only that much jerk which is required so that velocity along string becomes zero ).
24
Sep
A ball of mass m = 200 gm is suspended from a point A by an inextensible string of length L. Ball is drawn to a side and held at same level as A but at a distance root 3/2 L from A as shown. Now the ball is released. Then :( assume string applies [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: A particle of mass m makes an elastic head on collision with a stationery particle of mass 2m. If initial kinetic energy is moving particle is 6 j , then during the impact ,
Two balls A & B of mass m1 and m2 are kept on a horizontal smooth surface. A is given a velocity towards B so that they perform head on collision
24
Sep
Two balls A & B of mass m1 and m2 are kept on a horizontal smooth surface. A is given a velocity towards B so that they perform head on collision then during the impact September 24, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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