Temperature of two moles of an ideal gas is increased by 300K in a process V=a/T , where a is positive constant. Find work done by the gas in the given process.
Internal energy of two moles of an ideal gas at a temperature of 127^(@)C is 1200R . Then find the molar specific heat of the gas at constant pressure?
Internal energy of two moles of an ideal gas at temperature of 27^(@)C is 1200 R . Then find the molar specific heat of the has at constant pressure ?
Derive an expression for maximum work in isothermal reversible expansion of two mole of an ideal gas.
If two mole of an ideal gas at 546 K occupies a volume of 44.8 litres , the pressure must be :
If two moles of an ideal gas at 546 K occupies a volume of 44.8 litres. Find out pressure (in atm)
If two moles of an ideal gas at 546 K occupy volume of 44.8 L, then pressure must be
If two moles of an ideal gas at 500 K occupies a volume of 41 litres, the pressure of the gas is (R = 0.082 L atm K^(-1) mol^(-1))
NARENDRA AWASTHI-THERMODYNAMICS-Level 3 - Match The Column
