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A solid sphere is given an angular velocity omega and kept on a rough fixed incline plane . Then choose the correct statement .
30
Sep
A solid sphere is given an angular velocity omega and kept on a rough fixed incline plane . Then choose the correct statement . A solid sphere is given an angular velocity omega and kept on a rough fixed incline plane . Then choose the correct statement . September 30, 2020 Category: Uncategorised (JEE Advanced [...]
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Tags: A solid sphere is given an angular velocity omega and kept on a rough fixed incline plane . Then choose the correct statement . ,
A horizontal force F pulls a ring of mass m1 such that theta remains constant with time. The ring is constrained to move along a smooth rigid horizontal wire. A bob of mass m2 hangs from m1
30
Sep
A horizontal force F pulls a ring of mass m1 such that theta remains constant with time. The ring is constrained to move along a smooth rigid horizontal wire. A bob of mass m2 hangs from m1 A horizontal force F pulls a ring of mass m1 such that theta remains constant with time. The [...]
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Tags: A horizontal force F pulls a ring of mass m1 such that theta remains constant with time. The ring is constrained to move along a smooth rigid horizontal wire. A bob of mass m2 hangs from m1 ,
Two wheels `A` and `B` are released from rest from points `X` and `Y` respectively on an inclined plane as shown in the figure. Which of the following statement(s) is/are incorrect?
30
Sep
Two wheels `A` and `B` are released from rest from points `X` and `Y` respectively on an inclined plane as shown in the figure. Which of the following statement(s) is/are incorrect? Two wheels `A` and `B` are released from rest from points `X` and `Y` respectively on an inclined plane as shown in the figure. [...]
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Tags: Two wheels `A` and `B` are released from rest from points `X` and `Y` respectively on an inclined plane as shown in the figure. Which of the following statement(s) is/are incorrect? ,
A sphere A moving with a speed u and rotating with an angular velocity ω, makes a head-on elastic collision with an identical stationary sphere B. There is no friction between the surface of A and B. Disregard gravity.
30
Sep
A sphere A moving with a speed u and rotating with an angular velocity ω, makes a head-on elastic collision with an identical stationary sphere B. There is no friction between the surface of A and B. Disregard gravity. A sphere A moving with a speed u and rotating with an angular velocity ω makes [...]
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Tags: A sphere A moving with a speed u and rotating with an angular velocity ω , makes a head-on elastic collision with an identical stationary sphere B. There is no friction between the surface of A and B. Disregard gravity. ,
A plank with a ubniform sphere placed on its rests on a smooth horizontal plane. The plank is pulled to the right by a constnt force F. If the sphere does not slip over the plank, then
30
Sep
A plank with a ubniform sphere placed on its rests on a smooth horizontal plane. The plank is pulled to the right by a constnt force F. If the sphere does not slip over the plank, then A plank with a ubniform sphere placed on its rests on a smooth horizontal plane. The plank is [...]
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Tags: A plank with a ubniform sphere placed on its rests on a smooth horizontal plane. The plank is pulled to the right by a constnt force F. If the sphere does not slip over the plank , then ,
In the system shown in Fig. 6.386, masses of the blocks are such that when system is released, the acceleration of pulley P1 is a upwards and the acceleration of block 1 is a1 upwards.
30
Sep
In the system shown in Fig. 6.386, masses of the blocks are such that when system is released, the acceleration of pulley P1 is a upwards and the acceleration of block 1 is a1 upwards. In the system shown in Fig. 6.386 masses of the blocks are such that when system is released the acceleration [...]
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Tags: In the system shown in Fig. 6.386 , masses of the blocks are such that when system is released , the acceleration of pulley P1 is a upwards and the acceleration of block 1 is a1 upwards. ,
There is no friction anywhere in the system shown in figure. The pulley is light. The wedge is free to move on a frictionless surface. A horizontal force F is applied on the system in such a way
30
Sep
There is no friction anywhere in the system shown in figure. The pulley is light. The wedge is free to move on a frictionless surface. A horizontal force F is applied on the system in such a way There is no friction anywhere in the system shown in figure. The pulley is light. The wedge [...]
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Tags: There is no friction anywhere in the system shown in figure. The pulley is light. The wedge is free to move on a frictionless surface. A horizontal force F is applied on the system in such a way ,
In Fig. 6.365, the blocks A, B, and C of mass m each have acceleration a1, a2, and a3, respectively. F1 and F2 are external forces of magnitude 2mg and mg, respectively. Then
30
Sep
In Fig. 6.365, the blocks A, B, and C of mass m each have acceleration a1, a2, and a3, respectively. F1 and F2 are external forces of magnitude 2mg and mg, respectively. Then a2 and a3 and C of mass m each have acceleration a1 B In Fig. 6.365 respectively then. respectively. F1 and F2 [...]
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Tags: a2 , and a3 , and C of mass m each have acceleration a1 , B , In Fig. 6.365 , respectively then. , respectively. F1 and F2 are external forces of magnitude 2mg and mg , the blocks A ,
A stepped cylinder having mass 50 kg and a radius of gyration (K) of 0.30 m. The radii R1 and R2 are respectively 0.3 m and 0.6 m. A pull T equal to 200N is exerted on the rope attached to inner cylinder. The coefficient of static and dynamic friction between cylinder and ground are 0.1 and 0.08 respectively.
30
Sep
A stepped cylinder having mass 50 kg and a radius of gyration (K) of 0.30 m. The radii R1 and R2 are respectively 0.3 m and 0.6 m. A pull T equal to 200N is exerted on the rope attached to inner cylinder. The coefficient of static and dynamic friction between cylinder and ground are [...]
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Tags: A solid sphere rolls without slipping on a rough horizontal floor , moving with a speed v. It makes an elastic collision with a smooth vertical wall. After impact: ,
The accelerations of a particle as observed from two different frames S1 and S2 have equal magnitudes of 2 m/s^2.
30
Sep
The accelerations of a particle as observed from two different frames S1 and S2 have equal magnitudes of 2 m/s^2. The accelerations of a particle as observed from two different frames S1 and S2 have equal magnitudes of 2 m/s^2. September 30, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: The accelerations of a particle as observed from two different frames S1 and S2 have equal magnitudes of 2 m/s^2. ,