pulley| atwood machine

Consider the double Atwood’s machine as shown in the figure. What is acceleration of the masses ?

Simple Atwood Machine as System of Particles The system shown in the figure is known as simple Atwood machine. Initially the masses are held at rest and then let free. Assuming mass m_(2) more than the mass m_(1) , find acceleration of mass center and tension in the string supporting the pulley.

Consider the double Atwood's machine as shown in the figure (a) What is acceleration of the masses? (b) What is the tension in each string?

Consider the double Atwood's machine as shown in the figure (a) Whatis acceleration of the masses? (b) What is the tension in each string?

A string of length and mass per unit length is used in atwood machine as shown in the figure. Masses of blocks are large in comparison with the mass of string. The transverse wave velocity in the string is:

In a simple Atwood's machine, two unequal masses m_1= 5 kg , m_2 = 2 kg are connected by a string going over a clamped light smooth pulley. Now a constant force F = 1 N is applied on each mass in vertically downward direction. The ratio of acceleration of either block before and after applying the force will be

Two masses m_(1) kg and m_(2) kg passes over an atwoods machine. Find the ratio of masses m_(1) and m_(2) so that string passing over the pulley will just start slipping over its surface. The friction coefficient between the string and pulley surface is 0.2.

In the ideal atwood machine arrangement shown, what is the change in kinetic energy of the system in (1)/(sqrt2) second of their motion starting from rest ?

In a simple Atwood machine, two unequal masses m_1 and m_2 are connected by string going over a clamped light smooth pulley . In a typical arrangement m_1=300g and m_2=600g . The system is released from rest. Consider the Atwood machine of the previous problem. The larger mass is stopped for a moment 2.0 s after the system is set into motion. Find the time elapsed before the string is tight again.