A rope is placed on a smooth horizontal floor as shown. A constant force 'F' is applied at x = 0. The linear mass density of the rope is given by `mu=mu_0` , where `mu_0` is a positive constant

The acceleration of the rope is `(xF)/(mu_0L^2)` Then 'x' is

A uniform rod of length L and mass M has been placed on a rough horizontal surface as shown in the figure. The rod is pulled by applying a horizontal force. The coefficient of friction mu between the surface and the rod is given by mu = {(mu_(0)x, 0 le x le L),(0, x > L):} , where mu_(0) is a positive constant. The heat generated due to friction as the rod moves by a distance L is

A rope of length L and mass M is being pulled on a rough horizontal floor by a contact horizontal force F = m g . The force is acting at one end of the rope in the same direction as the length of the rope. The coefficient of kinetic friction between rope and floor is 1//2 . Then the tension at the midpoint of the rope is

A uniform of rope length L and mass M is placed on a smooth fixed wedge as shown. Both ends of rope are at same horizontal level. The rope is initially released from rest, then the magnitude of initial acceleration of rope is.

A rope of length L is pulled by a constant force F. What is the tension in the rope at a distance x from the end where the force is applied ?

A block of mass M is pulled along a horizontal frictionless surface by a rope of mass m as shown in A horizontal force F is applied to one end of the rope. Find (a) the acceleration of the rope and block (b) the force that the rope exerts on the block (c) the tension in the rope at its mid point

A block of mass 10 kg lying on a smooth horizontal surface is being pulled by means of-a rope of mass 2 kg. If a force of 36N is applied at the end of the rope, the tension at the mid point of the rope is,

A long rectangular slab of transparent medium of thickness d placed on a table with its length parallel to the x-axis and width parallel to the axis. A ray of light travelling inair makes a near normal incidence on the slab as shown. Taking the point of incidence as orign (0,0,0). The refraction index mu of the medium varies as mu=(mu_(0))/(1-(x/r) where mu_(1) and r(gtd) are constants. The refractive index of air is mu_(0) The x-coordinate of the point A where the ray intersects the upper surface of the slab air boundary is

Find the dimension of B^2/(2 mu_0)

A block of mass 5 kg is placed on a plank of mass 10 kg which is placed on the smooth horizontal surface as shown in figure. If a 100 N force is applied on the plank then the acceleration of the plank wrt ground is (Coefficient of friction between block and plank mu_s= mu_k=0.4 and g = 10 m/s^2 )

A straight rod of length 'l' extends from x=l to x=2l. If linear mass density of rod is mu=((mu_0)/(l^3)X^3) , then the gravitational force exerted by rod on a particle of mass m at x=0 , is