How large must F be in the figure shown to give the 700 g block an acceleration of `30 cm s^(-2)` ? The coefficient of friction between all surfaces is 0. 15.

The minimum acceleration that must be impprted to the cart in the figure so that the block A will not fall (given mu is the coefficient if friction between the surface of block and cart) is given by:

A block of mass 8 kg is sliding on a surface inclined at an angle of 45^(@) with the horizontal. Calculate the acceleration of the block. The coefficient of friction between the block and surface is 0.6. (Take g=10m//s^(2) )

A block of mass 8 kg is sliding on a surface inclined at an angle of 45^(@) with the horizontal . Calculate the acceleration of the block . The coefficient of friction between the block and surface is 0*6 ( Take g = 10 m//s^(2) )

Three blocks are connected as shown in the figure. Valculate the minimum force required to move the body with constant velocity. The coefficient of friction at all surfaces is 0.25.

A block of mass 4kg is placed in contact with the front vertical surface of a lorry.The coefficient of friction between the vertical surface and block is 0.8 .The lorry is moving with an acceleration of 15m//s^(2) .The force of friction between lorry and block is (g=10ms^(-2))

Conside the situation shown in figure. The block B moves on a frictionless surface ,while the coefficient of friction between A and the surface on which it moves is 0.2 . Find the acceleration with which the masses move and also the tension in the strings. (Take g = 10 m//s^(2)) .

Determine the force P required to impend the motion of the block B shown in figure. Take coefficient of friction = 0.3 for all surfaces in contact.

A force F accelerates a block of mass m on horizontal surface. The coefficient of friction between the contact surface is . The acceleration of m will be -