In the co-efficinet of friction between the floor and the body `B` is 0.1. The co-efficient of friction beteen the bodies `B` and `A` is 0.2 A fore `F` is applied as shown `B` The mass of `A` is `m//2` and of `B` is m Which of the following statements are ture ?
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In the coefficient of friction between the floor and the body B is 0.1. The coefficient of friction between the bodies B and A is 0.2. A force F is applied as shown on B. The mass of m A is 1/2 and of B is m. Which of the following statements are true ?

Shown in the figure, the co-efficient of friction between the flor and the body B is 0.1. The co-efficient of friction between the bodie B and A is 0.2 A force F is applied as shwon on B. The mas of A is m/2 and of b is m. Which of the following statements are true?

The block each of mass 1 kg are placed as shown .They are connected by a string which passes over a smooth (massless) pulley. There is no friction between m_(1) and the ground.The coefficient of friction between m_(1) and m_(2) is 0.2 A force F is applied to m_(2) . Which of the fpllowing statement is/are correct?

The block each of mass 1 kg are placed as shown .They are connected by a string which passes over a smooth (massless) pulley. There is no friction between m_(1) and the ground.The coefficient of friction between m_(1) and m_(2) is 0.2 A force F is applied to m_(2) . Which of the fpllowing statement is/are correct?

The coefficient of friction between the block A of mass m & block B of mass 2m is mu . There is no friction between A & B is released from rest & there is no slipping between A & B then:

In the figure shown co-efficient of friction between the block B and C is 0.4. There is no friction between the block C and hte surface on which it is placed. The system of blocks is released from rest in the shown situation. Find the distance moved by the block C when block A descends through a distance 2m. Given masses of the blocks are m_(A)=3 kg, m_(B)=5 kg and m_(C)=10 kg .

A block of mass 2 kg is placed on the floor. The co-efficient of static friction is 0.4. The force of friction between the block and floor is