Thermodynamics is a very important branch of both chemistry and physics. It deals with the study of energy, the conversion of energy between different forms and the ability of energy to do work. Thermodynamics is an important chapter for JEE Mains, JEE Advance NEET and many others exams. As this chapter is present in both chemistry and physics and there is only a minor difference between them hence it becomes more important topic. It is not a tough topic, it only requires practice. This topic has been given good weightage in all engineering exams. So don't skip this and prepare well. All the best !.
Q1. For the reaction; C2H5OH(l) + 3O2(g) → 2CO2(g) + 3H2O(l), which one is true?
Solution:-
Δn = 2 − 3 = −1 ∴ ΔH = ΔU − RT
Δn = 2 − 3 = −1 ∴ ΔH = ΔU − RT
Q2. When two atoms of hydrogen combine to form a molecule of the hydrogen gas, the energy of the molecule is:
Solution:-
Bond formation is always exothemic.
Bond formation is always exothemic.
Q3. Energy equivalent to one erg, one joule and one calorie are in order:
Solution:-
1 cal = 4.185J = 4.18 × 107 erg
1 cal = 4.185J = 4.18 × 107 erg
Q4. H2 + 1/2 O2 → H2O; ΔH = −68.39 kcal.....(i)
K + aq. → KOH(aq) + 1/2H2; ΔH = −48 kcal.....(ii)
KOH + aq. → KOH(aq); ΔH = −14 kcal.....(iii)
The heat of formation (in kcal) of KOH is:
K + aq. → KOH(aq) + 1/2H2; ΔH = −48 kcal.....(ii)
KOH + aq. → KOH(aq); ΔH = −14 kcal.....(iii)
The heat of formation (in kcal) of KOH is:
Solution:-
K + 1/2O2 + 1/2H2 → KOH; ΔH = ?
Find ΔH by eq.[(i)+(ii)]−(iii).
K + 1/2O2 + 1/2H2 → KOH; ΔH = ?
Find ΔH by eq.[(i)+(ii)]−(iii).
Q5. The standard heat of combustion of solid boron is:
Solution:-
2B + 3/2O2 → B2O3; ΔfH°(B2O3)
∴ ΔcH°(B) = 1/2Δf H°(B2O3)
The heat is given out.
2B + 3/2O2 → B2O3; ΔfH°(B2O3)
∴ ΔcH°(B) = 1/2Δf H°(B2O3)
The heat is given out.
Q6. The ΔH°ionisation for HCN and CH3COOH are 45.2 and 2.1 kJ/mol. Which of the following is correct?
Solution:-
More is heat of ionization of acid, more is stability of acid or lesser is dissosciation or KαCH3COOH > KαHCN. Thus, pKαHCN > pKαCH3COOH
More is heat of ionization of acid, more is stability of acid or lesser is dissosciation or KαCH3COOH > KαHCN. Thus, pKαHCN > pKαCH3COOH
Q7. During an isothermal expansion of an ideal gas its:
Solution:-
At isothermal condition, T = constant.
At isothermal condition, T = constant.
Q8. The heat of combustion for C, H2 and CH4 are −349.0, −241.8 and −906.7 kJ respectively. The heat of formation of CH4 is:
Solution:-
By eq.[(i) + 2×(ii)]−(iii),
C + 2H2 → CH4; ΔH = 74.1kJ
By eq.[(i) + 2×(ii)]−(iii),
C + 2H2 → CH4; ΔH = 74.1kJ
Q9. The heat change for the reaction, C(s) + 2S(s) → CS2(l) is called
Solution:-
CS2 is formed from its initial components carbon and hydrogen.
CS2 is formed from its initial components carbon and hydrogen.
Q10. When a solid melts, there is:
Solution:-
Ice takes up heat to melt and thus, enthalpy change is +ve.
Ice takes up heat to melt and thus, enthalpy change is +ve.