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A block of mass 25 kg is raised by a 50 kg man in two different ways as shown in Fig. 6.94. What is the action on the floor by the man in the two cases? If the floor yields to a normal force of 700
25
Sep
A block of mass 25 kg is raised by a 50 kg man in two different ways as shown in Fig. 6.94. What is the action on the floor by the man in the two cases? If the floor yields to a normal force of 700 A block of mass 25 kg is raised by [...]
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Tags: A block of mass 25 kg is raised by a 50 kg man in two different ways as shown in Fig. 6.94. What is the action on the floor by the man in the two cases? If the floor yields to a normal force of 700 ,
Two trolleys A and B are moving with accelerations a and 2a, respectively, in the same direction. To an observer in trolley A, Find the magnitude of the pseudo force acting on a block of mass m on trolley B.
25
Sep
Two trolleys A and B are moving with accelerations a and 2a, respectively, in the same direction. To an observer in trolley A, Find the magnitude of the pseudo force acting on a block of mass m on trolley B. Find the magnitude of the pseudo force acting on a block of mass m on [...]
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Tags: Find the magnitude of the pseudo force acting on a block of mass m on trolley B. , in the same direction. To an observer in trolley A , respectively , Two trolleys A and B are moving with accelerations a and 2a ,
Determine tension T4 in Fig. 6.92
25
Sep
Determine tension T4 in Fig. 6.92 Determine tension T4 in Fig. 6.92 September 25, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: Determine tension T4 in Fig. 6.92 ,
A block of mass m = 10 kg is suspended with the help of three strings as shown in Fig. 6.91. Find the tensions T1 and T2.
25
Sep
A block of mass m = 10 kg is suspended with the help of three strings as shown in Fig. 6.91. Find the tensions T1 and T2. A block of mass m = 10 kg is suspended with the help of three strings as shown in Fig. 6.91. Find the tensions T1 and T2. September [...]
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Tags: A block of mass m = 10 kg is suspended with the help of three strings as shown in Fig. 6.91. Find the tensions T1 and T2. ,
The object in Fig. 6.90 weighs 40 kg and hangs at rest. Find the tensions in the three cords that hold it.
25
Sep
The object in Fig. 6.90 weighs 40 kg and hangs at rest. Find the tensions in the three cords that hold it. The object in Fig. 6.90 weighs 40 kg and hangs at rest. Find the tensions in the three cords that hold it. September 25, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma [...]
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Tags: The object in Fig. 6.90 weighs 40 kg and hangs at rest. Find the tensions in the three cords that hold it. ,
Figure 6.89 shows a light platform on which a man of mass M is standing and holding a string passing over a system of ideal pulleys. Another mass m is hanging as shown in Fig. 6.89. Find the force the man has
25
Sep
Figure 6.89 shows a light platform on which a man of mass M is standing and holding a string passing over a system of ideal pulleys. Another mass m is hanging as shown in Fig. 6.89. Find the force the man has A U-shaped smooth wire has a semi-circular bending between A and B as [...]
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Tags: A U-shaped smooth wire has a semi-circular bending between A and B as shown in Fig. 6.13. A bead of mass m moving with uniform speed v through the wire uniform speed v through the wire ,
A small object is suspended at rest from two strings as shown in Fig. 6.88. The magnitude of the force exerted by each string on the object is 10 root 2 N. Find the magnitude of the mass of the object.
25
Sep
A small object is suspended at rest from two strings as shown in Fig. 6.88. The magnitude of the force exerted by each string on the object is 10 root 2 N. Find the magnitude of the mass of the object. A U-shaped smooth wire has a semi-circular bending between A and B as shown [...]
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Tags: A U-shaped smooth wire has a semi-circular bending between A and B as shown in Fig. 6.13. A bead of mass m moving with uniform speed v through the wire uniform speed v through the wire ,
In Fig.6.87, the mass of the man is M. Calculate the mass of the man as registered by weighing machine. Assume weighing machine, man, and wedge all are stationary.
25
Sep
In Fig.6.87, the mass of the man is M. Calculate the mass of the man as registered by weighing machine. Assume weighing machine, man, and wedge all are stationary. and wedge all are stationary. In Fig.6.87 man the mass of the man is M. Calculate the mass of the man as registered by weighing machine. [...]
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Tags: and wedge all are stationary. , In Fig.6.87 , man , the mass of the man is M. Calculate the mass of the man as registered by weighing machine. Assume weighing machine ,
A mass m is placed on a body of mass M. There is no friction anywhere. Force F is applied an M and it moves with acceleration a. Find the force (along x-axis) on the top body.
25
Sep
A mass m is placed on a body of mass M. There is no friction anywhere. Force F is applied an M and it moves with acceleration a. Find the force (along x-axis) on the top body. A mass m is placed on a body of mass M. There is no friction anywhere. Force F [...]
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Tags: A mass m is placed on a body of mass M. There is no friction anywhere. Force F is applied an M and it moves with acceleration a. Find the force (along x-axis) on the top body. ,
As per the diagram given in Fig. 6.84, The free- body diagram of M is Fig. 6.85 (correct or incorrect). Assume all surfaces are frictionless.
25
Sep
As per the diagram given in Fig. 6.84, The free- body diagram of M is Fig. 6.85 (correct or incorrect). Assume all surfaces are frictionless. As per the diagram given in Fig. 6.84 The free- body diagram of M is Fig. 6.85 (correct or incorrect). Assume all surfaces are frictionless. September 25, 2020 Category: Uncategorised [...]
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Tags: As per the diagram given in Fig. 6.84 , The free- body diagram of M is Fig. 6.85 (correct or incorrect). Assume all surfaces are frictionless. ,