A wire of `9.8 xx 10^(-3) kg` per meter mass passes over a fricationless pulley fixed on the top of an inclined frictionless plane which makes an angle of `30^(@)` with the horizontal. Masses `M_(1)` & `M_(2)` are tied at the two ends of the wire. The mass `M_(1)` rests on the plane and the mass `M_(2)` hangs freely vertically downwards. the whole system is in equilibrium. Now

A wire of 9.8xx10^(-3) kg/m passes over a frictionless light pulley fixed on the top of a frictionless inclined plane which makes an angle of 30^(@) with the horizontal. Masses m and M are tied at the two ends of wire such that m rests on the plane and M hangs freely vertically downwards. the entire system is in equilibrium and a transverse wave propagates along the wire with a velocities of 100 m//s .

A wire of 10^(-2)kg m^(-1) passes over a frictionless light pulley fixed on the top of a frictionless inclined plane, which makes an angle of 30^@ with the horizontal. Masses m and M are tied at two ends of wire such that m rests on the plane and M hangs freely vertically downwards. The entire system is in equilibrium and a transverse wave propagates along the wire with a velocity of 100 ms^(-1) .

A person pushes a block of mass 4 kg up a frictionless inclined plane 10 m long and that makes an angle of 30^@ with the horizontal . Then the work done is

Two blocks of masses m_(1) and m_(2) are connected by a string of negligible mass which pass over a frictionless pulley fixed on the top of an inclined plane as shown in figure. The coefficient of friction between m_(1) and plane is mu .

A body of mass 10kg is placed on a smooth inclined plane making an angle of 30^(@) with the horizontal, the component of the force of gravity trying to move the body down the inclined plane is [g=9.8m//s^(2)]

A smooth pulley A of mass M_(0) is lying on a frictionless table. A massless rope passes round the pulley and has masses M_(1) and M_(2) tied to its ends, the two portions of the string being perpendicular to the edge of the table so that the masses hang vertically. Find the acceleration of the pulley.

Two masses M_(1) " and " M_(2) are attached to the ends of a string which passes over a pulley attached to the top of an inclined plane. The angle of inclination of the plane is 30^(@) and M_(1)=10 kg, M_(2)=5kg . What is the acceleration of mass M_(2) ?

Two masses m_1 and m_2 are attached to the ends of a massless string which passes over a frictionless pulley attached to the top of an inclined plane. The angle of inclination of the plane is theta . Take g=10ms^(-2) if m_(1)=10 kg,m_(2)=5 kg , theta=30^(@) , what is the acceleration of mass m_(2) ?

Two masses M_(1)=5kg,M_(2)=10 kg are connected at the ends of an inextensible string passing over a frictionless pulley as shown. When masses are released, then acceleration of masses will be