An ideal gas expands in volume from 1 × 10–3 m3 to 1 × 10–2 m3 at 300 K against a constant pressure of 1 × 105 Nm–2. The work done is [AIEEE 2004]
(1) 270 kJ
(2) –900 kJ
(3) –900 J
(4) 900 kJ
Mixing of non-reacting gases is generally accompanied by
(1) Decrease in entropy
(2) Increase in entropy
(3) Change in enthalpy
(4) Change in free energy
An irreversible process occuring isothermally in an isolated system leads to
(1) Zero entropy
(2) An increase in the total entropy of the system
(3) A decrease in the total entropy of the system
(4) None of these
Enthalpy and entropy change for a chemical reaction are –2.5 × 103 cal and 7.4 cal deg–1 respectively. Reaction at 298 K is -
(1) Spontaneous
(2) Reversible
(3) Irreversible
(4) Non-spontaneous
The entropy changed involved in the conversion of 1 mole of liquid water at 373 K to vapour at the same temperature will be [MP PET 2002]
(1) 0.119 kJ
(2) 0.109 kJ
(3) 0.129 kJ
(4) 0.120 kJ
When a liquid boils, there is [JIPMER 2002]
(1) An increase in entropy
(2) A decrease in entropy
(3) An increase in heat of vaporization
(4) An increase in free energy
For a carnot engine, the source is at 500 K and the sink at 300 K. What is efficiency of this engine
(1) 0.2
(2) 0.4
(3) 0.6
(4) 0.3
A solution of 500 ml of 0.2 M KOH and 500 ml of 0.2 M HCl is mixed and stirred; the rise in temperature is T1. The experiment is repeated using 250 ml each of solution, the temperature raised is T2. Which of the following is true .
(1) T1 = T2
(2) T1 = 2T2
(3) T1 = 4T2
(4) T2 = 9T1
The heat of formation of HCl(g) from the reaction
H2(g) + Cl2(g) ; is
1. +44 kcal
2. -44 kcal
3. +22 kcal
4. -22 kcal
The heat of neutralisation of HCl by NaOH is -55.9 kJ/mole. If the heat of neutralisation of HCN by NaOH is -12.1 kJ/mole, then energy of dissociation of HCN is-
1. -43.8 kJ
2. 43.8 kJ
3. 68 kJ
4. -68 kJ