In the fig the heavy mass m moves down the smooth surface of a wedge making a angle `alpha` with the horizontal. The wedge at rest `t=0` is on a smooth surface. The mass of the wedge is M. The direction of motion of the mass m makes an angle `beta` with the horizontal then `tan beta` is:

In the figure heavy mass m moves down the smooth surface of a wedge making an angle alpha with the horizontal. The wedge at rest t =0 is on a smooth surface. The mass of the wedge is M the direaction of motion of the mass m makes an angle beta with the horizontal then, "Tan" beta is .

In the figure-2.61 a bar of mass m is on the smooth inclined face of the wedge of mass M,the inclination to the horizontal being 0.The wedge is resting on a smooth horizontal plane.Assuming the pulley to be smooth and the string is light and inextensible. Find the acceleration of M,when M and m are always in contact.

In the figure-2.61 a bar of mass m is on the smooth inclined face of the wedge of mass M,the inclination to the horizontal being 0.The wedge is resting on a smooth horizontal plane.Assuming the pulley to be smooth and the string is light and inextensible. Find the acceleration of M,when M and m are always in contact.

A wedge of inclination theta is placed on a smooth surface. Ablock of mass m placed on the wedge is found to be stationary w.r.t the wedge . Select the correct alternative .

A horizontal force F pushes wedge of mass M on a smooth horizontal surface. A block of mass m is stationary to the wedge, then:

As shown in the figure, a wedge of mass M is placed on a smooth inclined ramp that makes an angle theta to the horizontal. An object of mass m rests on top of the wedge. The sliding down the ramp at acceleration a. determine the apparent weight of the objects as it slides down. noth that there is friction between the object and the wedge so that the object remains relatively at rest on the wedge.

A small block of mass m is kept on the inclined surface of a wedge of mass M. The inclined surface of the wedge makes an angle theta with the horizontal. The wedge is kept on a frictionless rigid horizontal floor. You can neglect friction between the block and the wedge also. An external agent applies a horizontal force F on the wedge. The value of the force F so that the wedge remains at rest is F_(1) . Which of the options is incorrect?

A small block of mass m is kept on the inclined surface of a wedge of mass M. The inclined surface of the wedge makes an angle theta with the horizontal. The wedge is kept on a frictionless rigid horizontal floor. You can neglect friction between the block and the wedge also. An external agent applies a horizontal force F on the wedge. The value of the force F so that the wedge remains at rest is F_(1) . Which of the options is incorrect?

A small block of mass m is kept on the inclined surface of a wedge of mass M. The inclined surface of the wedge makes an angle theta with the horizontal. The wedge is kept on a frictionless rigid horizontal floor. You can neglect friction between the block and the wedge also. An external agent applies a horizontal force F on the wedge. The value of the force F so that the wedge remains at rest is F_(1) . Which of the options is incorrect?