Figure illustrates a cycle conducted with n moles of an ideal gas. In the states a and b the gas temperatures are `T_(a)` and `T_(b)` respectively. Temperature of the gas in the state C is ltbr)

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 an adiabatic expansion of a gas initial and final temperatures are T_(1) and T_(2) respectively, then the change in internal energy of the gas is

The specific heat of an ideal gas varies with temperature T as

Figure shows the isotherms of fixed mass of an ideal gas at three temperatures T_(A).T_(B) and T_(C ) then:-

Figure shows the isotherms of a fixed mass of an ideal gas at three temperatures T_(A) , T_(B) and T_(C) , then

n' moles of an ideal gas undergoes a process AtoB as shown in the figure. The maximum temperature of the gas during the process will be:

One mole of monatomic gas is brought from state A to state B. The initial temperature at A is T_(0) . The temperature at B will be –

Figure shows graphs of pressure vs density for an ideal gas at two temperatures T_(t) and T_(2)

The ednsity (rho) of an ideal gas varies with temperature T as shown in figure. Then

What is the equation of state of an ideal gas for n moles ?