A string with one end fixed on a right well , passing over a fixed frictionless polley at a distance of `2` m from the well , has a point mass `M = 2kg` atteched to the it at a distance of I m from the well . A mass `m= 0.5` kg atteched at the free end is field at rest as this the
string is horizental between the wall and the palley when will be the speed with which the mass `M` with hit the well when the mass `m` is relesed ?

A string with one end fixed on a right well , passing over a fixed frictionless pulley at a distance of 2 m from the well , has a point mass M = 2kg attached to the it at a distance of I m from the well . A mass m= 0.5 kg attached at the free end is field at rest as this the string is horizontal between the wall and the pulley when will be the speed with which the mass M with hit the well when the mass m is released ?

A string with one end fixed on a rigid wall, passing over a fixed frictionless pulley at a distance of 2m from the wall, has a point mass M of 2kg attached to it at a distance of 1m from the wall. A mass m of 0.5kg is attached to the free end. The system is initially held at rest so that the stirng is horizontal between wall and pulley and vertical beyond the pulley as shown in figure. What will be the speed with which point mass M will hit the wall when the system is released? (g=10ms^-2)

A string with one end fixed on a rigid wall, passing over a fixed frictionless pulley at a distance of 2m from the wall, has a point mass M of 2kg attached to it at a distance of 1m from the wall. A mass m of 0.5kg is attached to the free end. The system is initially held at rest so that the stirng is horizontal between wall and pulley and vertical beyond the pulley as shown in figure. What will be the speed with which point mass M will hit the wall when the system is released? (g=10ms^-2)

Two masses m_1=5kg and m_2=4.8kg tied to a string are hanging over a light frictionless pulley. What is the acceleration of the masses when left free to move?

Two masses m_1=5kg and m_2=4.8kg tied to a string are hanging over a light frictionless pulley. What is the acceleration of the masses when left free to move?

The masses (M+m) and (M-m) are attached to the ends of a light inextensible string and the string is made to pass over the surface of a smooth fixed pulley. When the masses are relased from rest the acceleraion of the system is .

Two masses M and m are connected at the two ends of an inextensible string. The string passes over a smooth frictionless pulley. Calculate the acceleration of the masses . Given M > m.

Two masses m_(1) = 4.8 kg and m_(2) = 5 kg tied to a string are hanging over a light frictionless pully. What is the acceleration of masses when they are free to move ?