For the following given equations and H° values, determine the enthalpy of reaction at 298 K for the reaction:

C2H4(g) + 6F2(g)  2CF4(g) + 4HF(g)

H2(g) + F2(g)  2HF(g)       H1°= -537 kJ

C(s) + 2F2(g) CF4(g)         H2°=-680 kJ

2C(s) + 2H2(g) C2H4(g)    H3°= 52 kJ

1. –1165 kJ

2. –2486 kJ

3. +1165 kJ

4. +2486 kJ

Subtopic:  Enthalpy & Internal energy |
 82%
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If Hf°(C2H4) and Hf°(C2H6) are x1 and x2 kcal/mol then heat of hydrogenation of C2H4 is :-

(1) x1 + x2

(2) x1 - x2

(3) x2 - x1

(4) x1 + 2x2

Subtopic:  Thermochemistry |
 76%
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For the reaction, X2O4(l) 2XO2(g)

U = 2.1 kcal, S = 20 cal K-1 at 300 K. Hence, G is

(1) 2.7 kcal

(2) -2.7 kcal

(3) 9.3 kcal

(4) -9.3 kcal

Subtopic:  Gibbs Energy Change |
 76%
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NEET - 2014
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The enthalpy of fusion of water is 1.435 kcal/mol. The molar entropy change for the melting of ice at 0°C is

(a) 10.52 cal/(mol K)

(b) 21.04 cal/(mol K)

(c) 5.260 cal/(mol K)

(d) 0.526 cal/(mol K)

Subtopic:  Enthalpy & Internal energy |
 80%
NEET - 2012
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The enthalpy and entropy change for the reaction :

Br2(l)+Cl2(g)  2BrCl(g) are 30 kJ mol-1 and 105 JK-1 mol-1 respectively.

The temperature at which the reaction will be in equilibrium is :

1. 285.7 K

2. 273 K

3. 450 K

4. 300 K

Subtopic:  Spontaneity & Entropy |
 83%
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NEET - 2006
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The temperature of the system decreases in an

(1) Adiabatic compression

(2) Isothermal compression

(3) Isothermal expansion

(4) Adiabatic expansion

Subtopic:  Thermodynamics' Properties and process |
 60%
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Mark the correct statement 

(1) For a chemical reaction to be feasible, ΔG should be zero

(2) Entropy is a measure of order in a system

(3) For a chemical reaction to be feasible, ΔG should be positive

(4) The total energy of an isolated system is constant

Subtopic:  Gibbs Energy Change |
 75%
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Which of the following is not a state function 

(1) Internal energy

(2) Enthalpy

(3) Work

(4) Entropy

Subtopic:  Thermodynamics' Properties and process |
 88%
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The work done in ergs for the reversible expansion of one mole of an ideal gas from a volume of 10 litres to 20 litres at 25°C is 

(1) -2.303×298×0.082log2

(2) -298×107×8.31×2.303log2

(3)- 2.303×298×0.082log0.5

(4) 8.31×107×2982.303log0.5

Subtopic:  First Law of Thermodynamics |
 64%
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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

Subtopic:  First Law of Thermodynamics |
 75%
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