A cart loaded with sand moving with velocity v. Sand is falling through the hole as shown in diagram then after falling on the ground sand is

A trolley filled with sand is moving with a velocity v on a smooth horizontal surface due to inertia. If the sand falls off at the rate of mu kg//sec , the velocity of the trolley as a function of time will be best represented by:

A cart is moving with a velocity 20m/s. Sand is being dropped into the cart at the rate of 50 kg/min. The force required to move the cart with constant velocity will be :-

A cart loaded with sand having total mass m_(0)=1800kg moves on a straight horizontal road starting from rest under the action of a force of 120N. The sand spills through a small hole hole in the bottom at a rate of 0.5 kg/sec. What will be the velocity of cart after 20 min?

A cart loaded with sand moves along a horizontal floor due to a constant force F coinciding in direction with cart's velocity vector. In the process, the sand spills through a hole in the bottom with a constant rate mukg//s. Find the acceleration and velocity of the cart at the moment t , if at the initial moment t=0 the cart with loaded sand had mass m_(0) and its velocity was equal to zero. Friction is to be neglected.

A shere of mass m , moving with velocity V , enters a hanging bag of sand and stop. If the mass of the bag is M and it is reised by height h , then the velocity of the sphere will be

A body freely falling from the rest has velocity v after it falls through a height h the distance it has to fall down for its velocity to become double is

A body falling from rest has a velocity v after it falls through a distanc.e h. The distance it has to fall down further, for its velocity to become double, is ..... times h

A raindrop falling from a height h above ground, attains a near terminal velocity when it has fallen through a height (3//4)h . Which of the diagrams shown in figure correctly shows the change in kinetic and potential energy of the drop during its fall up to the ground ?

A small spherical ball falling through a viscous medium of negligible density has terminal velocity v. Another ball of the same mass but of radius twice that of the earlier falling through the same viscous medium will have terminal velocity

A freely body acquires a velocity of g^(x)h^(y) after falling through a height h. Using dimensions find the values fo x and y.