Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)

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Two blocks A and B of masses m and 2 m, respectively, are held at rest such that the spring is in natural length. Find out the accelerations of both the blocks just after release.
29
Sep
Two blocks A and B of masses m and 2 m, respectively, are held at rest such that the spring is in natural length. Find out the accelerations of both the blocks just after release. are held at rest such that the spring is in natural length. Find out the accelerations of both the blocks [...]
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Tags: are held at rest such that the spring is in natural length. Find out the accelerations of both the blocks just after release. , respectively , Two blocks A and B of masses m and 2 m ,
In Fig. 6.347, the acceleration of A is aA = 15i + 15j. Then the acceleration of B is
29
Sep
In Fig. 6.347, the acceleration of A is aA = 15i + 15j. Then the acceleration of B is In Fig. 6.347 the acceleration of A is aA = 15i + 15j. Then the acceleration of B is September 29, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: In Fig. 6.347 , the acceleration of A is aA = 15i + 15j. Then the acceleration of B is ,
In two pulley-particle systems (1) and (2), the acceleration and force imparted by the string on the pulley and tension in the strings are (a1 , a2 ), ( N1, N2), and (T1, T2), respectively.
29
Sep
In two pulley-particle systems (1) and (2), the acceleration and force imparted by the string on the pulley and tension in the strings are (a1 , a2 ), ( N1, N2), and (T1, T2), respectively. ( N1 a2 and (T1 In two pulley-particle systems (1) and (2) n2 respectively t2 the acceleration and force imparted [...]
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Tags: ( N1 , a2 , and (T1 , In two pulley-particle systems (1) and (2) , n2 , respectively , t2 , the acceleration and force imparted by the string on the pulley and tension in the strings are (a1 ,
In the system shown all the surfaces are frictionless while pulley and string are massless. The mass of block A is 2 m and that of block B is m. The acceleration of block B immediately after
29
Sep
In the system shown all the surfaces are frictionless while pulley and string are massless. The mass of block A is 2 m and that of block B is m. The acceleration of block B immediately after In the system shown all the surfaces are frictionless while pulley and string are massless. The mass of [...]
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Tags: In the system shown all the surfaces are frictionless while pulley and string are massless. The mass of block A is 2 m and that of block B is m. The acceleration of block B immediately after ,
Two trolleys 1 and 2 are moving with accelerations a1 and a2, respectively, in the same direction. A block of mass m on trolley 1 is in equilibrium from the frame of observer stationary with respect to trolley 2.
29
Sep
Two trolleys 1 and 2 are moving with accelerations a1 and a2, respectively, in the same direction. A block of mass m on trolley 1 is in equilibrium from the frame of observer stationary with respect to trolley 2. in the same direction. A block of mass m on trolley 1 is in equilibrium from [...]
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Tags: in the same direction. A block of mass m on trolley 1 is in equilibrium from the frame of observer stationary with respect to trolley 2. , respectively , Two trolleys 1 and 2 are moving with accelerations a1 and a2 ,
In Fig. 6.343, man A is standing on a movable plank while man B is standing on a stationary platform. Both are pulling the string down such that the plank moves slowly up.
29
Sep
In Fig. 6.343, man A is standing on a movable plank while man B is standing on a stationary platform. Both are pulling the string down such that the plank moves slowly up. In Fig. 6.343 man A is standing on a movable plank while man B is standing on a stationary platform. Both are [...]
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Tags: In Fig. 6.343 , man A is standing on a movable plank while man B is standing on a stationary platform. Both are pulling the string down such that the plank moves slowly up. ,
A small block of mass m rests on a smooth wedge of angle theta. With what horizontal acceleration a should the wedge be pulled, as shown in Fig. 6.342, so that the block falls freely?
29
Sep
A small block of mass m rests on a smooth wedge of angle theta. With what horizontal acceleration a should the wedge be pulled, as shown in Fig. 6.342, so that the block falls freely? A small block of mass m rests on a smooth wedge of angle theta. With what horizontal acceleration a should [...]
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Tags: A small block of mass m rests on a smooth wedge of angle theta. With what horizontal acceleration a should the wedge be pulled , as shown in Fig. 6.342 , so that the block falls freely? ,
If block A is moving horizontally with velocity vA, then find the velocity of block b at the instant as shown in Fig. 6.341.
29
Sep
If block A is moving horizontally with velocity vA, then find the velocity of block b at the instant as shown in Fig. 6.341. If block A is moving horizontally with velocity vA then find the velocity of block b at the instant as shown in Fig. 6.341. September 29, 2020 Category: Uncategorised (JEE Advanced [...]
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Tags: If block A is moving horizontally with velocity vA , then find the velocity of block b at the instant as shown in Fig. 6.341. ,
Figure 6.340 shows two blocks, each of mass m. The system is released from rest. If accelerations of blocks A and B at any instant (not initially) are a1 and a2, respectively, then
29
Sep
Figure 6.340 shows two blocks, each of mass m. The system is released from rest. If accelerations of blocks A and B at any instant (not initially) are a1 and a2, respectively, then each of mass m. The system is released from rest. If accelerations of blocks A and B at any instant (not initially) [...]
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Tags: each of mass m. The system is released from rest. If accelerations of blocks A and B at any instant (not initially) are a1 and a2 , Figure 6.340 shows two blocks , respectively , then ,
A particle is moving in the x-y plane. At certain instant of time, the components of its velocity and acceleration are as follows: vx = 3 m/s, vy = 4 m/s, ax = 2 m/s^2 and ay = 1 m/s^2. The rate of change of speed
29
Sep
A particle is moving in the x-y plane. At certain instant of time, the components of its velocity and acceleration are as follows: vx = 3 m/s, vy = 4 m/s, ax = 2 m/s^2 and ay = 1 m/s^2. The rate of change of speed A particle is moving in the x-y plane. At [...]
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Tags: A particle is moving in the x-y plane. At certain instant of time , ax = 2 m/s^2 and ay = 1 m/s^2. The rate of change of speed , the components of its velocity and acceleration are as follows: vx = 3 m/s , vy = 4 m/s ,