Fixed amount of an ideal monoatomic gas ...

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)`

Promotional Banner

Promotional Banner

Similar Questions

Explore conceptually related problems

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 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 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)

When "1" mole of an ideal monoatomic gas is compressed adiabatically the internal energy change involved is "24 cals.The temperature rise is

Recommended Questions

Fixed amount of an ideal monoatomic gas contained in a seeled rigid ve...
Text Solution
|
Fixed mass of an ideal gas contained in 10.0L sealed rigid vessel at 1...
Text Solution
|
Fixed mass of an ideal gas collected in a 24.64 litre sealed rigid ves...
Text Solution
|
Two vessels A and B , thermally insulated, contain an ideal monoatomic...
Text Solution
|
V-T graph of a process of monoatomic ideal gas is shown in figure. Cha...
Text Solution
|
Two identical vessels A & B contain equal amount of ideal monoatomic g...
Text Solution
|
In a thermodynamic process pressure of a fixed mass of a gas is change...
Text Solution
|
For a fixed amouunt of an ideal gas (gamma=(11)/(9)) , the change in i...
Text Solution
|
Fixed amount of an ideal monoatomic gas contained in a seeled rigid ve...
Text Solution
|