In a game of tug of wars, a condition of equilibrium exists. Both the team pull the rope with a force of `10^4N.` The tension in the rope is –

In a game of tug-of-war, Mark pulls the rope with a force of 60 N from the right. Sandy and George pull the rope with respective forces of 40 N and 20 N from the left. The net force on the rope is

In a game of tug-o-war, Mark pulls the rope with a force of 60 N from the right. Sanday and George pull the rope with respective forces of 40 N and 20 N from the left, as shown in the given figure. The net force on the rope is

A rope of length 15 m and linear density 2 kg/m is lying length wise on a horizontal smooth table. It is pulled by a force of 25 N. The tension in the rope at the point 7 m away from the point of application, will be -

A uniform rope of length L , resting on frictionless horizontal table is pulled at one end by a force F . What is the tension in the rope at a distance x from the end where the force is applied ? [ Hint : Consider the motion of the entire rope and the motion of x length of rope using P = ma formula and third law of motion ]

In order to raise a mass of 100kg a man of mass 60kg fastena a rope to it and passes the rope over a smooth pulley. He climbs the rope with an accelration 5g/4 relative to rope. The tension in the rope is

A person pulls a sledge for a distance of 35.0 m along the snow with a rope directed 25.0^(@) above the snow. The tension in the rope is 94.0 N. How much work is done on the sledge by the tension force ?

A block is lying on the horizontal frictionless surface. One end of a uniform rope is fixed to the block which is pulled in the horizontal direction by applying a force F at the other end. If the mass of the rope is half the mass of the block. The tension in the middle of the rope will be