The horizontal force and the force inclined at an angle `60^(@)` with the vertical, whose resultant is in vertical direction of P kg, ar

[Find by vector method the horizontal force and the force inclined at an angle of 60^@ to the vertical whose resultant is a vertical force P.]

A block of mass m lying on a rough horizontal plane is acted upon by a horizontal force P and another force Q inclined at an angle theta to the vertical. The minimum value of coefficient of friction of friction between the block and the surface for which the block will remain in equilibrium is

A block of mass m lying on a rough horizontal plane is acted upon by a horizontal force P and another force Q inclined at an angle theta to the vertical. The minimum value of coefficient of friction of friction between the block and the surface for which the block will remain in equilibrium is

A block of mass m lying on a rough horizontal plane is acted upon by a horizontal force P and another force Q inclined at an angle theta to the vertical. The minimum value of coefficient of friction of friction between the block and the surface for which the block will remain in equilibrium is

A block of mass m lying on a rough horizontal plance is acted upon by a horizontal force P and another force Q inclined at an angle theta to the vertical. The block will remain in equilibrium, if the coefficient of friction between it and the surface is

A force of 4N is inclined at an angle of 60^(@) from the vertical. Find out its components along horizontal and vertical directions.

A force of 4N is inclined at an angle of 60^(@) from the vertical. Find out its components along horizontal and vertical directions.

A wedge of mass m, lying on a rough horizontal plane, is acted upon by a horizontal force F_(1) and another force F_(2) , inclined at an angle theta to the vertical. The block is in equilibrium, then minimum coefficient of friction between it and te surface is

A mass of M kg is suspended by a weightless string. The horizontal force required to displace it until string makes an angle of 45^@ with the initial vertical direction is:

A block of mass 4kg rests on a rough horizontal plane. The plane is gradually inclined until at an angle theta=60^(@) , with the vertical, the mass just begins to side. What is the coefficient of static friction between the block and the plane?