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Block 'A' of mass 100 kg is kept above another block 'B' of mass 300 kg.'A' is tied to the wall 'C' with a horizontal string. The coefficient of friction between 'A' and 'B' is 0.35 and that between 'B' and the horizontal surface is 0.5. Find the horizontal force P, necessary to move the block 'B'.

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Important Questions on Laws of Motion

MEDIUM
Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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MEDIUM
Physics>Mechanics>Laws of Motion>Friction
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MEDIUM
Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction

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EASY
Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Physics>Mechanics>Laws of Motion>Friction
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Given in the figure are two blocks A and B of weight 20 N and 100 N, respectively. These are being pressed against a wall by a force F and kept in equilibrium as shown. If the coefficient of friction between the blocks is 0.1 and between block B and the wall is 0.15, the frictional force applied by the wall on block B is: