When an ideal gas is compressed adiabatically and reversibly, the final temperature is:
1. higher than the initial temperature
2. lower than the initial temperature
3. the same as the initial temperature
4. dependent on the rate of compression
1 liter-atmosphere is equal to:
1. 101.3 J
2. 24.20 cal
3. 101.3 x 107 erg
4. All of the above
The standard change is Gibbs energy for the reaction,
H2OH+ + OH- at 25C is:
1. 100 kJ
2. -90 kJ
3. 90 kJ
4. -100 kJ
The entropy change in the fusion of one mole of a solid melting at 27C is:
(the latent heat of fusion is 2930 J mol-1)
1. 9.77 JK-1mol-1
2. 19.73 JK-1mol-1
3. 2930 JK-1mol-1
4. 108.5 JK-1mol-1
The maximum work done in expanding 16 g of oxygen at 300 K and occupying a volume of 5 dm3 isothermally until the volume becomes 25 dm3 is:
1. -2.01 x 103 J
2. 2.81 x 103 J
3. 2.01 x 10-3 J
4. -2.01 x 10-6 J
1 mole of an ideal gas at 25 is subjected to expand reversibly ten times of its initial volume. The change in entropy of expansion is:
1. 19.15 JK–1mol–1
2. 16.15 JK–1mol–1
3. 22.15 JK–1mol–1
4. None of the above
For the process
H2O(l) H2O(g)
at T=100C and 1 atmosphere pressure, the correct choice is:
1.
2.
3.
4.
During an adiabatic process:
1. pressure is maintained constant
2. gas is isothermally expanded
3. there is perfect heat insulation
4. the system changes heat with surroundings
Heat of combustion for C(s), H2(g) and CH4(g) are -94, -68 and -213 kcal/mol. Then, for
C(s) + 2H2(g) CH4(g) is
1. -17 kcal/mol
2. -111 kcal/mol
3. -170 kcal/mol
4. -85 kcal/mol
What is the resulting change in the internal energy of the system when 50 calories are added to
the system and the system does work of 30 calories on the surroundings?
1. 20 cal
2. 50 cal
3. 40 cal
4. 30 cal