The value of `(C_p - C_v)` is `1.00 R` for a gas sample in state A and is 1.08 R in state B. Let (`p_A, p_B)`denote the pressures and `(T_A and T_B)` denote the temperatures of the states A and B respectively . Most likely

The value of C_(p) - C_(v) is 1.09R for a gas sample in state A and is 1.00R in state B . Let T_(A),T_(B) denote the temperature and p_(A) and p_(B) denote the pressure of the states A and B respectively. Then

The value of C_(p) - C_(v) is 1.09R for a gas sample in state A and is 1.00R in state B . Let A_(A),T_(B) denote the temperature and p_(A) and P_(B) denote the pressure of the states A and B respectively. Then

The value of C_(p) - C_(v) is 1.09R for a gas sample in state A and is 1.00R in state B . Let A_(A),T_(B) denote the temperature and p_(A) and P_(B) denote the pressure of the states A and B respectively. Then

The value of C_(P) - C_(v) = 1.00 R for a gas in state A and C_(P) - C_(v) = 1.06 R in another state. If P_(A) and P_(B) denote the pressure and T_(A) and T_(B) denote the temperature in the two states, then

The value of C_(P) - C_(v) = 1.00 R for a gas in state A and C_(P) - C_(v) = 1.06 R in another state. If P_(A) and P_(B) denote the pressure and T_(A) and T_(B) denote the temperature in the two states, then

An experiment is being performed by a student in laboratory on ideal gas. He found the value of C_P-C_V equal to 1.00 R in state A and is 1.08 R in state B.. Let P_A, P_B denote the pressures and T_A, T_B denote the temperature of state A and B respectively. Which of the following will be correct?

For a gas C_(P)-C_(V)=R in a state P and C_(P)-C_(V)=1.10 R in a state Q, T_(P) and T_(Q) are the temperatures in two different states P and Q respectively. Then

In the P - V diagram, the point B and C correspond to temperatures T _(1) and T_(2) respectively. State relationship between T_(1) and T_(2).

The state of an ideal gas is changed through an isothermal process at temperature T_0 as shown in figure. The work done by the gas in going from state B to C is double the work done by gas in going from state A to B. If the pressure in the state B is (p_0)/(2) , then the pressure of the gas in state C is