There is inclined surface of inclination `theta=30^(@)`. A smooth groove is cut into it forming angle `alpha` with AB. A steel ball is free to slide along the groove. If the ball is released from the point O at top end of the groove, the speed when it comes to A is `[g=10 m//s^(2)`]

A ball is thrown upward with speed 10 m/s from the top to the tower reaches the ground with a speed 20 m/s. The height of the tower is [Take g=10m//s^(2) ]

A ball is projected from a point O as shown in figure it will strike the ground after (g = 10 m/ s^(2) )

A particle is projected along an inclined plane as shown in figure. What is the speed of the particle when it collides at point A ? (g = 10 m/s^2)

An inclined plane makes an angle 30^(@) with the horizontal. A groove (OA) of length 5m cut in the plane makes an angle 30^(@) with OX. A short smooth cylinder is free to slide down under the influence of gravity. The time taken by the cylinder to reach from A to O is (g=10ms^(-2)) .

An inclined plane makes an angle 30^(@) with the horizontal. A groove (OA) of length 5m cut in the plane makes an angle 30^(@) with OX. A short smooth cylinder is free to slide down under the influence of gravity. The time taken by the cylinder to reach from A to O is (g=10ms^(-2)) .

A ball is dropped from the top of a building the ball takes 0.5 s to fall past the 3 m length of a window at certain distance from the top of the building. Speed of the ball as it crosses the top edge of the window is (g=10 m//s^(2))

Shown in the figure is a block at rest haivng an inclined smooth groove in a vertical plane. The horizontal surface is smooth. A ball of the mass as that of the block at rest is released from the top end. The time when the ball will leave groove is sqrt((nL)/(2sqrt3g)) . Find n.

A uniform solid cone of mass m, base radius ‘R’ and height 2R, has a smooth groove along its slant height as shown in figure. The cone is rotating with angular speed omega , about the axis of symmetry. If a particle of mass ‘m’ is released from apex of cone, to slide along the groove, then angular speed of cone when particle reaches to the base of cone is

On a frictionless horizontal surface , assumed to be the x-y plane , a small trolley A is moving along a straight line parallel to the y- axis ( see figure) with a constant velocity of (sqrt(3)-1) m//s . At a particular instant , when the line OA makes an angle of 45(@) with the x - axis , a ball is thrown along the surface from the origin O . Its velocity makes an angle phi with the x - axis and it hits the trolley . (a) The motion of the ball is observed from the frame of the trolley . Calculate the angle theta made by the velocity vector of the ball with the x- axis in this frame . (b) Find the speed of the ball with respect to the surface , if phi = (4 theta )//(3) .

On a frictionless horizontal surface , assumed to be the x-y plane , a small trolley A is moving along a straight line parallel to the y -axis( see figure) with a constant velocity of (sqrt(3)-1) m//s . At a particular instant , when the line OA makes an angle of 45(@) with the x - axis , a ball is thrown along the surface from the origin O . Its velocity makes an angle phi with the x -axis and it hits the trolley . (a) The motion of the ball is observed from the frame of the trolley . Calculate the angle theta made by the velocity vector of the ball with the x -axis in this frame . (b) Find the speed of the ball with respect to the surface , if phi = (4 theta )//(3) .