Two masses of `10kg` and `5kg` are suspended from a rigid support as shown in figure. The system is pulled down with a force of `150N` attached to the lower mass. The string attached to the support breaks and the system accelerates downwards

In case the force continues to act. what will be the tension acting between the two masses ? .

Two masses of 5 kg and 10 kg are suspended from a fixed support as shown in the figure. The system is pulled downwards with a force of 150 N applied to the lower mass. The string attached to the support breaks and the system accelerates downwards. If the downward force continues to act, the acceleration of the center of mass of the system is :

Two masses m and M are attached to the strings as shown in the figure. If the system is in equilibrium, then

A block of mass 10 kg is suspended by three strings as shown in figure . Tension T_(2) is

A mass M is suspended by a rope from a rigid support at A as shown in figure. Another rupe is tied at the end B, and it is pulled horizontally with a force. If the rope AB makes an angle theta with the vertical in equilibrium then the tension in the string AB is

A 5kg mass is accelerated from rest to 60 m/s in 1 sec. what force acts on it:

The masses of 10 kg and 20 kg respectively are connected by a massless spring as shown in figure. A force of 200 N acts on the 20 kg mass. At the instant shown, the 10 kg mass has acceleration 12m//sec^(2) . What is the acceleration of 20 kg mass

The masses of 10 kg and 20 kg, respectively, are connected by a light spring as shown in the figure. A force of 200 N acts upon the 20 kg mass. At the instant shown, the 10 kg mass the acceleration of 12m//s^(2) . The acceleration of 20 kg mass is

A mass 'M' is suspended by a rope from a rigid support. It is pulled horizontally with a force F. If the rope makes an angle ' theta ' with vertical in equilibrium, then the tention in the string is

Two masses of 10 kg and 20 kg are connected with an inextensible string passing over two smooth pulleys as shown in the figure. The acceleration of 20 kg mass will be :

A metal wire of length L is suspended vertically from a rigid support. When a bob of mass M is attached to the lower end of wire, the elongation of the wire is l: