A shell is projected from a gun with a muzzle velocity `u`.The gun is fitted with a trolley car at an angle `theta` as shown in the fig. If the trolley car is made to move with constant velocity `v` towards right, find the horizontal range of the shell relative to ground.

A shell is projected from a gun with a muzzle velocity, u . The gun is fitted with a trolly car at an angle theta as shown in (Fig. 5.33). If the trolley car is made to move with constant velocity v towards right, find the (a) horizontal range of the shell relative to ground. (b) horizontal range of the shell relative to a person travelling with trolley. .

A particle is projected form a trolley car with a velocity vecv . If the trolley can moves with an acceleration veca towards right, which of the following remain unchanged relative to both ground and trolley car?

A boy projects a stone vertically perpendicular to the trolley car with a speed v. If the trolley car moves with a constant velocity u, the time of flight of the stone is :

A truck is moving horizontally with velocity v. A ball thrown vertically upward with a velocity u at angle theta to the horizontal from the truck relative to it. The horizontal range of the ball relative to the ground is

A cannon is fixed with a smooth massive trolley car at an angle theta as shown in the figure.The trolley car slides from rest down the inclined plane of angle of inclination beta . The muzzle velocity of the shell fired at t=y_(0) from the cannon is u ,such that the shell moves perpendicular to the inclined just after the firing. The time of flight of the shell is:

A cannon is fixed with a smooth massive trolley car at an angle theta as shown in the figure.The trolley car slides from rest down the inclined plane of angle of inclination beta . The muzzle velocity of the shell fired at t=y_(0) from the cannon is u ,such that the shell moves perpendicular to the inclined just after the firing. The value of t_(0) is: