A heavy cart is pulled by a constant force F along a horizontal track with the help of a rope that passes over a fixed pulley, as shown in the figure. Assume the tension in the rope and the frictional forces on the cart remain constant and consider motion of the cart until it reaches vertically below the pulley. As the cart moves to the right, its acceleration

A force is applied to a cart moving along a horizontal track in the positive x direction. If the cart speeds up and then slows down, then which one of the following graphs best shows the variation of the force with time for the cart? Assume that friction is negligible.

A block of mass 100 kg is set into motion on a frictionless horizontal surface with the help of a frictionless pulley and rope system shown in What horizontal force should be applied on the rope to produce an acceleration of 0.1 m//s^(2) .

A block of mass 200kg is set into motion on a frictionless , horizontal surface with the help of frictionless pulley and a rope system as shown in figure. What horizontal force F should be applied to produce in the block an acceleration of 1 m//s^(2) ?

A uniform rope of mass (m) and length (L) placed on frictionless horizontal ground is being pulled by two forces F_(A) and F_(B) at its ends as shown in the figure. As a result, the rope accelerates toward the right. Tension (T) at the mid point of the pore is

In the figure a rope of mass m and length l is such that its one end is fixed to rigid wall and the other is applied with a horizontal force F as shown below, then tension at the middle of the string is:

A heap of rope is lying on a horizontal surface. One free end A of the rope is pulled horizontally with a constant velocity v . Assume that the heap does not move and the moving part of the rope remains straight and horizontal (i.e. there is no sag). Mass per unit length of the rope is lamda . Find the tension at point P where the straightened part of the rope meets the heap. How much force the external agent must apply at end A ?

A block of mass m is placed on a rough horizontal floor and it is pulled by a ideal string by a constant force F as shown. As the block moves towards right the friction force on block

A man has fallen into a ditch of width d and two of his friends are slowly pulling him out using a light rope and two fixed pulleys as shown in figure. Indicate the correct statements : (assume both the friends apply equal forces of equal magnitude)