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
For the process:
H2O(l)[1 bar, 373 K] H2O(g)[1 bar, 373 K] the correct set of thermodynamic parameters are:
1.
2.
3.
4.
The internal energy change when a system goes from state A to B is 40 kJ/mol. If the system goes from A to B by a reversible path and returns to state A by an irreversible path. What would be the change in internal energy?
1. 40 kJ
2. >40 kJ
3. <40 kJ
4. Zero
Change in entropy is negative for:
1. Bromine (l)Bromine(g)
2. C(s) + H2O(g) CO(g) + H2(g)
3. N2(g,10 atm)N2(g,1 atm)
4. Fe ( 1mol, 400 K) Fe( 1mol, 300 K)
The mathematical form of the first law of thermodynamics when heat (q) is supplied and W is work done by the system (-ve) is:
1. U=q+W
2. U=q-W
3. U=-q+W
4. U= -q-W
Which statements are correct?
1. is called Clausius-Clapeyron equation
2. is called Trouton's rule
3. Entropy is a measure of unavailable energy, i.e.,
unavailable energy = entropy x temperature
4. All of the above
will be highest for the reaction:
1. Ca(s) + 1/2 O2(g) CaO(s)
2. CaCO3(s)CaO(s) + CO2(g)
3. C(s) + O2(g)CO2(g)
4. N2(g) + O2(g)2NO(g)
One mole of ice is converted into the water at 273 K. The entropies of H2O(s) and H2O(l) are 38.20 and 60.01 J mol-1K-1 respectively. The enthalpy change for the conversion is:
1. 59.54 J mol-1
2. 5954 J mol-1
3. 595.4 J mol-1
4. 320.6 J mol-1
A gaseous system changes from state A(P1, V1, T1) to B(P2,V2,T2), B to C(P3, V3, T3) and finally from C to A. The whole process may be called:
1. reversible process
2. cyclic process
3. isobaric process
4. spontaneous process
When one mole of monoatomic ideal gas at TK undergoes reversible adiabatic change under a constant external pressure of 1 atm changes volume from 1 litre to 2 litre. The final temperature in kelvin would be:
1. T/(2)2/3
2. T + 2/(3x0.0821)
3. T
4. T - 3/(2x0.0821)