A particle slides down on a smooth incline of inclination `30^(@)`, fixed in an elevator going up with an acceleration `2m//s^(2)`. The box of incline has width 4m. The time taken by the particle to reach the bottom will be

A particle slides down a smooth inclined plane of elevation theta fixed in an elevator going up with an acceleration a_0 . The base of the incline has a length L. Find the time taken by the particle to reach the bottom.

A particle slides down a smooth inclined plane of elevation theta fixed in an elevator going up with an acceleration a_0 . The base of the incline has a length L.Find the time taken by the particle to reach the bottom.

A block slides down from top of a smooth inclined plane of elevation ● fixed in an elevator going up with an acceleration a_(0) The base of incline hs length L Find the time taken by the block to reach the bottom .

A small block of mass 1 kg is kept on a rough inclined wedge of inclination 45^@ fixed in an elevator. The elevator goes up with a uniform velocity v=2 m//s and the block does not slide on the wedge. Find the work done by the force of friction on the block in 1s . (g=10 m//s^(2))

A small block of mass m is kept on a rough inclined surface of inclination theta fixed in an elevator. The elevator goes up with a uniform velocity v and the block does not slide on the wedge. The work done by the force of friction on the block in time t will be

A block slide down an incline of angle 30^@ with an acceleration g/4. Find the kinetic friction coefficient.

A small block of mass m is kept on a rough inclined surface of inclination theta fixed in an elevator. The elevator goes up with a uniform velocity v and te block does not slide n te wedge. The work done by the force of friction on the block in time t will be

A small block of mass 2kg is kept on a rough inclined surface of inclination theta=30^@ fixed in a lift. The lift goes up with a uniform speed of 1ms^-1 and the block does not slide relative to the inclined surface. The work done by the force of friction on the block in a time interval of 2s is

A block A can slide on a frictionless incline of angle theta and length l, kept inside an elevator going up with uniform velocity v. Find the time taken by the block to slide down the length of the incline if it is released from the top of the incline.

A large , heavy box is sliding without friction down a smooth plane of inclination theta . From a point P on the bottom of the box , a particle is projected inside the box . The initial speed of the particle with respect to the box is u , and the direction of projection makes an angle alpha with the bottom as shown in Figure . Find the distance along the bottom of the box between the point of projection p and the point Q where the particle lands . ( Assume that the particle does not hit any other surface of the box . Neglect air resistance .