80 railway wagons all of same mass `5xx10^(3)`kg are pulled by an engine with a force of `4xx10^(5)`N. The tension in the coupling between 30 th and st 31st wagon from the engine is :-

A railway engine of mass 50 tons is pulling a wagon of mass 40 tons with a force of 4500N. The resistance force acting is 1N per ton. The tension in the coupling between the engine and the wagon is

A ship of mass 3xx10^(2)kg initially at rest is pulled by a force of 5xx10^(4) N through a distance of 3m. Neglecting frcition, the speed of the ship at this moment is:

A force applied by an engine of a train of mass 2.05xx10^6 kg changes its velocity from 5 m/s to 25 m/s in 5 minutes. The power of the engine is

A body of mass 5xx10^(-3) kg is launched upon a rough inclined plane making an angle of 30^(@) with the horizontal. Obtain the coefficient of friction between the body and the plane if the time of ascent is half of the time of descent.

An open water tight railway wagon of mass 5xx10^(3) kg coasts at initial velocity of 1.2 m//s without friction on a railway track. Rain falls vertically downwards into the wagon. What change then occurred in the kinetic energy of the wagon, when it has collected 10^(3) kg of water

If a steam engine delivers 6.0xx10^(8)J of work per minute and absorbs 5.4xx10^(9)J of heat per minute from its boiler then the efficiency of the engine is

A particle of mass 2 xx 10^(-3) kg, charge 4 xx 10^(-3)C enters in an electric field of 5 V//m , then its kinetic energy after 10 s is

A shell of mass 100 kg is fired horizontally from a cannon with a mass of 5xx10^(3) kg . The kinetic energy of the shell at the end of the barrel is 7.5xx10^(6) J . The kinetic energy imparted to the cannon by the recoil is

An open water tight railway wagon of mass 5 xx 10^(3) kg moves at an initial velocity 1.2 m//s without friction on a railway track. Rain drops fall vertically downwards into the wagon. The velocity of the wagon after it has collected 10^(3) kg of water will be :-

An engine of mass 5 x 10^(4)kg pulls a coach of mass 4 x 10^(4)kg Suppose that there is a resistance of 1 N per 100 kg acting on both coach and engine, and that the drivingforce is 4500N. The acceleration of the engine and the coupling will respectively be