A body is projected up along an inclined plane from the bottom with speed `V_(1)`. If it reaches the bottom of the plane with a velocity `V_(2)`, find `(v_(1)//v_(2))` if `theta` is the angle of inclination with the horizontal and `mu` be the coefficient of.

A body is projected up along the rough inclined plane from the bottom with some velocity. It travels up the incline and then returns back. If the time of ascent is t_(a) and time of descent is t_(d) then

A ball is projected horizontally from an inclined plane with a velocity V, as shown in the figure. It will strike the plane after a time

A block is kept on an inclined plane of inclination theta of length l. the velocity of particle at the bottom of inclined is (the coefficient of friciton is mu )

A solid sphere is projected up along an inclined plank of inclination theta=30^@ with a speed v=2ms^(-1) . If it rolls without slipping find the maximum distance traversed by it ( g=10 ms^(-2))

A disc rolls down a plane of length L and inclined at angle theta , without slipping. Its velocity on reaching the bottom will be :-

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 small disc is released from rest at A on an inclined plane AB so that it rolls down without slipping. It reaches the bottom with linear velocity v_(1) in time t_(1) . Next a small ring released form rest on the inclined plane AC so that it rolls down without slipping. It reaches the bottom with linear vlocity v_(2) in time t_(2) . Given theta_(1)=30^(@), theta_(2)=60^(@), and h=10m. Then,

A block is kept on a inclined plane of inclination theta of length l. The velocity of particle at the bottom of inclined is (the coefficient of friction is mu

At what angle should a ball be projected up an inclined plane with a velocity v_0 so that it may hit the incline normally. The angle of the inclined plane with the horizontal is prop . .

An object of mass m is allowed to fall from rest along a rough inclined plane. The speed of the object on reaching the bottom of the plane is proportional to: