An ideal monoatomic gas indergoes a pressure `pV_(n)`=constant. The adiabatic constant for gas is `y`. During the process, volume of gas increases from `V_(0)` to `rV_(0)` and pressure decreases for `p_(0) ` to `(p_(0))/(2r)` Based on above information, answer the following questios :
The of n is

An ideal monoatomic gas indergoes a pressure pV_(n) =constant. The adiabatic constant for gas is y . During the process, volume of gas increases from V_(0) to rV_(0) and pressure decreases for p_(0) to (p_(0))/(2r) Based on above information, answer the following questios : The molar heat capacity of the gas for the process is

An ideal gas expands in such a manner that its pressure and volume can be related by equation PV^(3)=constant . During this process, the gas is

An ideal gas expands in such a manner that its pressure and volume can be related by equation PV^(2) = constant. During this process, the gas is

An ideal gas expands in such a way that its pressure and volume satisfy with the condition PV^(2) = constant. During this process, the gas is

An ideal gas expands in such a manner that its pressure and volume can be related by equation PV^(2) = constant. During this process, the gas is

In process Tprop(1)/(V) , pressure of the gas increases from p_(0) to 4p_(0) . Match the following.

For an ideal monoatomic gas, the universal gas constant R is n times the molar heat capacity a constant pressure C_(p) .Here n is

For an ideal monoatomic gas, the universal gas constant R is n times the molar heat capacity a constant pressure C_(p) .Here n is