Value of `C_(p)` for monatomic gas is `(5)/(2)R`. Find `C_(V)`.

The value of C_(V) for monatomic gas is (3)/(2)R , then C_(P) will be

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

Find (C_(p))/(C_(v)) for monatomic ideal gas.

Find (C_(p))/(C_(v)) for monatomic ideal gas.

A cyclic process abcd is given for a monoatomic gas ( C_V=3/2R and C_p=5/2R ) as shown in figure. Find Q, W and DeltaU in each of the four processes separately. Also find the efficiency of cycle.

C_(P) -C_(V) for an ideal gas is………….. .

The total energy of 1 mol of an ideal monatomic gas at 27^(@)C is……. .

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

For hydrogen gas C_(p) - C_(v) = a and for oxygen gas C_(p) - C_(v) = b . So, the relation between a and b is given by

An ideal diatomic gas with C_(V)=(5R)/(2) occupies a volume V_(1) at a pressure P_(1) . The gas undergoes a process in which the pressure is proportional to the volume. At the end of the process the rms speed of the gas molecules has doubled from its initial value. The molar heat capacity of the gas in the given process is