A thermally insulated vessel containing a gas, whose molar mas is equal to `M` and specific heat capacity ratio `gamma`, moves with a velocity `V`. Find the temperature rise when the vessel is stopped suddenly.

A thermally insulated vessel containing diatomic gas of molar mass M is moving with velocity v. the temperature of gas is T. if it is suddenly stopped, then

A themallly insulated vessel contains an ideal gas of molecular mass M and ratio of specific heats gamma . It is moving with speed v and it's suddenly brought to rest. Assuming no heat is lost to the surroundings, Its temperature increases by:

Two adiabatic vessels, each containing the same mass m of water but at different temperatures, are connected by a rod of length L, cross-section A, and thermal conductivity K. the ends of the rod are inserted into the vessels, while the rest of the rod is insulated so that .there is negligible loss of heat into the atmosphere. The specific heat capacity of water is s, while that of the rod is negligible. The temperature difference between the two vessels reduces to l//e of its original value after a time, delta t . The thermal conductivity (K) of the rod may be expressed by:

An insulated container containing monoatomic gas of molar mass m is moving with a velocity V_(0) . If the container is suddenly stopped , find the change in temperature .

An insulated container containing monoatomic gas of molar mass s is moving with a velocity v_0 . If the container is suddenly stopped, find the change in temperature.

A thermally insulated, closed copper vessel contains water at 15^@C . When the vessel is shaken vigorously for 15 minuts, the temperature rises to 17^@C . The mass of the vessel is 100 g and that of the water is 200 g. The specific heat capacities of copper and water are 420(J)/(kg-K) and 4200(J)/(kg-K) resprectively. Neglect any thermal expansion. (a) How much heat is transferred to the liquid vessel system? (b) How much work has been doen on this system? (c ) How much is the increase in internal energy of the system?

Find the rate v with which helium flows out of a thermally insulated vessel into vacuum through a small hole. The flow rate of the gas inside the vessel is assumed to be negligible under these conditions. The temperature of helium in the vessel is T = 1.000 K .

Certain amount of an ideal gas is contained in a closed vessel. The vessel is moving with a constant velcity v . The molecular mass of gas is M . The rise in temperature of the gas when the vessel is suddenly stopped is (gamma C_(P) // C_(V))