A block m= 0.5kg slides down a frictionless inclined plane 2 m long as showi in figure-2.196. It then slides on a rough horizontal table surface of `mu = 0.3` for 0.5 m. It then leaves the top of the table,which is 1.0 m high. How far from the base of the table does the block land ?

A block of mass 5.0 kg slides down an incline of inclination 30^0 and length 10 m. The work done by the force of gravity (in joule) is

A massless string and a spring connect two blocks A and B to each other. Block B slides over a frictionless inclined plane while block A slides over horizontal surface. Coefficient of friction between block a A horizontal surface is mu=0.2 . At the instant shown blocks are moving with constant speed. Mass of block A and energy stored in spring the respectively. [g=10m//s^(2),k=1000N/m, m_(B)=2kg]

1 kg particle at a height of 4 m has a speed of 2 m/s down a incline making an angle 53^@ with horizontal as shown in figure. It slides on a horizontal section of length 3 m at ground level and then up an incline making an angle 37^@ with horizontal. All surfaces have mu_k=0.5 . How far from point O (bottom of right inclined plane), along the incline making and angle 37^@ with horizontal, does the particle first come to rest?

A 0.098-kg block slides down a frictionless track as shown in (Fig. 5.208). . The horizontal distance x travelled by the block in moving from A to C is.

A block of mass m = 3 kg slides on a rough inclined plane of cofficient of friction 0.2 Find the resultant force offered by the plane on the block

A block of mass m=4kg is placed oner a rough inclined plane as shown in figure. The coefficient of friction between the block and the plane is mu=0.5 . A force F=10N is applied on the block at an angle of 30^(@) .

A block of mass 250 g slides down an incline of inclination 37^0 with a uniform speed. Find the work done against the friction as the block slides through 1.0 m.

A block of mass M has a circular cut with a frictionless surface as shown. The block rests on the horizontal frictionless surface of a fixed table. Initially the right edge of the block is at x = 0, in a co-ordinate system fixed to the table. A point mass m is released from rest at the topmost point of the path as shown and it slides down. When the mass loses contact with the block, its position is x and the velocity is v. At that instant, which of the following options is/are correct?

A block of mass m slides down an inclined plane which makes an angle theta with the horizontal. The coefficient of friction between the block and the plane is mu . The force exerted by the block on the plane is

A block of weight 15N slides on a horizontal table the co-efficient of siliding fricition is 0.4 . The area of the block in contact with the table is 0.5m^(2) . The shearing stress will be