Fixed mass of an ideal gas collected in a 24.64 litre sealed rigid vessel at 10 atm is heated from `-73^(@)C` to `27^(@)C` calculate change in gibbs free energy if entropy of gas is a function of temperature as `S=2+10^(-2)T(J//K)(1atm=0.1kJ)`

Fixed mass of an ideal gas collected in a 24.64 litre sealed rigid vessel at 10 atm is heated from -73^(@)C to 27^(@)C calculate change in gibbs free energy if entropy of gas is a function of temperature as S=2+10^(-2)T(J//K)(1l atm=0.1kJ) (a) 1231.5 J (b) 1281.5 J (c) 781.5 J (d)None

Fixed mass of an ideal gas collected in a 24.64 litre sealed rigid vessel at 10 atm is heated from -73^(@)C to 27^(@)C calculate change in gibbs free energy if entropy of gas is a function of temperature as S=2+10^(-2)T(J//K)(1l atm=0.1kJ)

Fixed mass of an ideal gas contained in 10.0L sealed rigid vessel at 1atm is heated from -73^(@)C to 27^(@)C . Calculate change in Gibbs enegry if entropy of gas is a function of temperature as S = 2 +10^(-2)T (J K^(-1)). (1atmL = 0.1kJ)

Fixed mass of an ideal gas contained in 10.0L sealed rigid vessel at 1atm is heated from -73^(@)C to 27^(@)C . Calculate change in Gibbs enegry if entropy of gas is a function of temperature as S = 2 +10^(-2)T (J K^(-1)). (1atmL = 0.1kJ)

Fixed amount of an ideal mono atomic gas contained in a sealed rigid vessel (V=24.6 litres) at 1.0 bar is heated reversibly form 27^(@)C to 127^(@)C . Determine change in Gibb's energy (in Joule) if entropy of gas S=10 + 10^(-2)T(J//K)

Fixed amount of an ideal mono atomic gas contained in a sealed rigid vessel (V=24.6 litres) at 1.0 bar is heated reversibly form 27^(@)C to 127^(@)C . Determine change in Gibb's energy (in Joule) if entropy of gas S=10 + 10^(-2)T(J//K)

Fixed amount of an ideal monoatomic gas contained in a seeled rigid vessel (V=24.6 litre) at 1.0 bas is change in Gibb's energy (in Joule) if entropy of gas S=10+10^(-2)T(J//K)

In a closed vessel an ideal gas at 1 atm is heated from 27^(@) C "to" 327^(@)C . The pressure of gas will approximately be

One moles of an ideal gas which C_(V) = 3//2 R is heated at a constant pressure of 1 atm from 25^(@)C to 100^(@)C . Calculate DeltaU, DeltaH and the entropy change during the process.