An ideal gas undergoes an isobaric process. If its heat capacity is `C`, at constant volume and number of mole `n,` then the ratio of work done by gas to heat given to gas when temperature of gas changes by `DeltaT` is :
A monoatomic ideal gas undergoes a process ABC . The heat given to the gas is
For an ideal monoatomic gas, molar heat capacity at constant volume (C_(v)) is
When heat in given to a gas in an isobaric process, then
The molar heat capacity of a gas at constant volumes is C_V . If n moles of the gas under DeltaT change in temperature it's internal energy will change by nC_VDeltaT
The ratio of work done by an ideal diatomic gas to the heat supplied by the gas in an isobatic process is
A monotomic ideal gas undergoes a process in which the ratio of p to V at any instant is constant and equals to 1. what is the molar heat capacity of the gas?
A monoatomic ideal gas undergoes a process in which the ratio of P to V at any istant is constant and equal to unity. The molar heat capacity of the gas is
An ideal diatomic gas undergoes a process in which the pressure is proportional to the volume. Calculate the molar specific heat capacity of the gas for the process.
When an ideal diatomic gas is heated at constant pressure, its intenal energy is increased by 50cal then the work done by the gas is
