monatomic ideal gas is contained in a rigid container of volume V with walls of totsl inner surface area A, thickness x and thermal condctivity K. The gas is at an initial temperature `t_(0)` and pressure `P_(0)` . Find tjr pressure of the gas as a function of time if the temperature of the surrounding air is `T_(s)` . All temperature are in absolute scale.

A monatomic ideal gas is contained in a rigid container of volume V with walls of total inner surface area A, thickness x and thermal conductivity K. The gas is at an initial temperature t_(0) and pressure P_(0) . Find the pressure of the gas as a function of time if the temperature of the surrounding air is T_(s) . All temperature are in absolute scale.

A monatomic ideal gas is contained in a rigid container of volume V with walls of total inner surface area A, thickness x and thermal conductivity K. The gas is at an initial temperature t_(0) and pressure P_(0) . Find the pressure of the gas as a function of time if the temperature of the surrounding air is T_(s) . All temperature are in absolute scale.

An adiabatic cylinder of cross section A is fitted with a mass less conducting piston of thickness d and thermal conductivity K. Initially, a monatomic gas at temperature T_(0) and pressure P_(0) occupies a volume V_(0) in the cylinder. The atmospheric pressure is P_(0) and the atmospheric temperature is T_(1) (gt T_(0)) . Find (a) the temperature of the gas as a function of time (b) the height raised by the piston as a function of time. Neglect friction and heat capacities of the container and the piston.

If the temperature of a gas is increased by 1K at constant pressure its volume increase by 0.0035 of the initial volume. The temperature of the gas is

An ideal gas is found to obey the law V^2T = constant . The initial pressure and temperature are P_0 and T_0 . If gas expands such that its pressure becomes (P_0)/4 , then the final temperature of the gas will be

In the show indicator diagram over pressure - volume scales 'n' moles of an ideal gas is cycled . If the temperature of the gas in the state X and Y are respectively T_X and T_Y . Temperature of the gas in the state Z is the (All temperature are in absolute scale )

In the show indicator diagram over pressure - volume scales 'n' moles of an ideal gas is cycled . If the temperature of the gas in the state X and Y are respectively T_X and T_Y . Temperature of the gas in the state Z is the (All temperature are in absolute scale )