A body is allowed to slide from the top along a smooth inclined plane of length 5m at an angle of inclination 30°. If `g= 10ms^2`, time taken by the body to reach the bottom of the plane is

A body is slipping from an inclined plane of height h and length l . If the angle of inclination is theta , the time taken by the body to come from the top to the bottom of this inclined plane is

A spherical object of mass m and radius R is released from the top of a smooth inclined plane of height h and angle of inclination is 37° . The radius of gyration of the object is K. The speed of object at the bottom of inclined plane is

A body is kept on a smooth inclined plane having an inclination of 1 in x. Then,

A block released from rest from the tope of a smooth inclined plane of angle of inclination theta_(1) = 30^(@) reaches the bottom in time t_(1) . The same block, released from rest from the top of another smooth inclined plane of angle of inclination theta_(2) = 45^(@) reaches the bottom in time t_(2) . Time t_(1) and t_(2) are related as ( Assume that the initial heights of blocks in the two cases are equal ).

A disc of mass 3 kg rolls down an inclined plane of height 5 m. The translational kinetic energy of the disc on reaching the bottom of the inclined plane is

A body is released from the top of a smooth inclined plane of inclination theta . It reaches the bottom with velocity v . If the angle of inclina-tion is doubled for the same length of the plane, what will be the velocity of the body on reach ing the ground .

A body of mass 'm' slides down a smooth inclined plane having an inclination of 45^(@) with the horizontal. It takes 2S to reach the bottom. It the body is placed on a similar plane having coefficient friction 0.5 What is the time taken for it to reach the bottom ?

A body of mass m is kept on a rough fixed inclined plane of angle of inclination theta=30^(@) . It remains stationary. Then magnitude of force acting on the body by the inclined plane is equal to :

A wooden block sliding down from the top of a smooth inclined plane starting from rest takes t_(1) , seconds to reach the bottom of the plane and attains velocity V_(1) . Another block of twice the mass falling freely from the same height takes t_(2) sec. to reach the bottom of the plane and attains V_(2) . If angle of inclination of the plane is 30^(@) .

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 .