Previous Year Papers

Download Solved Question Papers Free for Offline Practice and view Solutions Online.

Test Series

Take Zigya Full and Sectional Test Series. Time it out for real assessment and get your results instantly.

Test Yourself

Practice and master your preparation for a specific topic or chapter. Check you scores at the end of the test.

231.
Born-Haber cycle may be used to calculate

electronegativity

mass number

oxidation number

electron affinity

electron affinity

According to Born-Haber cycle the enthalpy of formation ( $∆$ H_f) of an ionic compound may be given as:

$∆ H_{f} = S + \frac{1}{2} D + I + E + U$

where, I = ionisation energy; S = sublimation energy; E = electron affinity; D = dissociation energy and U = lattice energy of compound

Born-Haber cycle is used to determine the lattice energy of the compound. It also may be used to calculate electron affinity of an element.

232.

The heat of formation for CO₂ (g), H₂O (l) and CH₄ (g) are -400 kJ mol^-1, -280 kJ mol^-1 and -70 kJ mol^-1 respectively. The heat of combustion of CH₄ in kJ mol^-1 is

890
-160
-890
-90

233.

C (s) + O₂ (g) → CO₂ (g); $∆$ H = -94kcal

2CO (g) + O₂ (g) → 2CO₂ (g); $∆$ H = -135 kcal.

The heat of formation of CO (g) is

-26.4 kcal
41.2 kcal
26.4 kcal
229.2 kcal

234.

The entropy of a perfectly crystalline material is zero at 0°C. This is statement of

first law of thermodynamics
second law of thermodynamics
third law of thermodynamics
law of conservation of energy

235.

In any chemical reaction, a quantity that decrease to a minimum is

free energy
entropy
temperature
enthalpy

236.

Given, H₂O (l) → H₂O (g); $∆$ H₁ = +43 kJ

H₂O (s) → H₂O (l); $∆$ H₂ = +6.05 kJ. Calculate the enthalpy of sublimation of ice.

49.75 kJ mol^-1
37.65 kJ mol^-1
43.7 kJ mol^-1
55.23 kJ mol^-1

237.

If standard enthalpies of formation of CaCl (s) (hypothetical) and that of CaCl₂(s) are -188 J mol^-1 and -795 kJ mol^-1 respectively, calculate the value of standard heat of reaction for the following disproportionation reaction

2CaCl (s) → CaCl₂ (s) + Ca (s)

-607 kJ mol^-1
+607 kJ mol^-1
-419 kJ mol^-1
+419 kJ mol^-1

238.

Heat formation of H₂O is -188 kJ/ mol and H₂O₂ is 286 kJ/mol. The enthalpy change for the reaction; 2H₂O₂ → 2H₂O + O₂ is

196 kJ
-196 kJ
984 kJ
-984 kJ

239.

When 1 mole of a gas is heated at constant volume, temperature is raised from 298 K to 308 K. Heat supplied to the gas is 500J. Then, which statement is correct?

q= -W = 500J : ΔE= 0
q= W = 500J : ΔE= 0
q = ΔE= 500J , W= 0
ΔE = 0; q= W = -500J

240.

If enthaplies of formation for C₂H₂(g), CO₂(g) and H₂O(l) at 25°C and 1atm pressure be 52, -394 and -286kJ mol^-1 respectively, then the enthaply of combustion of C₂H₄(g) will be