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Test: Free Energy Change & Spontaneity - NEET MCQ


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15 Questions MCQ Test Chemistry Class 11 - Test: Free Energy Change & Spontaneity

Test: Free Energy Change & Spontaneity for NEET 2024 is part of Chemistry Class 11 preparation. The Test: Free Energy Change & Spontaneity questions and answers have been prepared according to the NEET exam syllabus.The Test: Free Energy Change & Spontaneity MCQs are made for NEET 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Free Energy Change & Spontaneity below.
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Test: Free Energy Change & Spontaneity - Question 1

Direction (Q. Nos. 1- 8) This section contains 8 multiple choice questions. Each question has four choices (a), (b), (c) and (d), out of which ONLY ONE option is correct.

Q. For the given reaction, = - 1.3818 kcal at 300 K. Thus equilibrium constant is

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 1

Since the reaction is not reversible, equilibrium constant is zero.

Test: Free Energy Change & Spontaneity - Question 2

ΔHvap = 30 kJ mol-1 and ΔSvap = 75 J mol-1 K-1. Thus, temperature of vapour at one atmosphere is

[IIT JEE 2004]

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 2

∆HVap = 30kJ/mol and ∆S = 75 J/K
∆G = ∆H - T∆S
At eqm, ∆G = 0
Therefore, ∆H = T∆S
Or T = 30×103/75 = 400 K

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Test: Free Energy Change & Spontaneity - Question 3

Which reaction, with the following values of ΔH and ΔS at 400 K is spontaneous and endothermic?

 

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 3

∆G = ∆H - T∆S
For opt (c), ∆G = 48000 - 400(135)
= 48000 - 54000
= -6000
∆G is -ve
Therefore reaction is spontaneous.

Test: Free Energy Change & Spontaneity - Question 4

Standard entropies of X2, Y2 and XY3 are given below the reaction

Q. At what temperature, reaction would be in equilibrium? 

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 4

1/2X + 3/2Y2 ⟶XY3,
ΔH= −30 kJ
ΔSreaction = ∑ΔSproduct−∑ΔSreactant 
X+ 3Y→ 2XY3
​ΔH=−60 kJ
ΔSreaction = 2×50−3×40−1×60 =100−120−60=−80 JK−1mol−1
 ΔG=ΔH−TΔS=0
ΔH=TΔS
1000×(−60)=−80×T
T=750 K

Test: Free Energy Change & Spontaneity - Question 5

The value of log10 K for a reaction, A B is (Given, ΔH°298 = - 54.07 kJ mol-1;

ΔS°298 = + 10 JK-1 mol-1; R = 8.314 JK-1 mol-1 2.303 x 8.314 x 298 = 5705) 

[IITJEE2007]

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 5

∆G° = ∆H° - T∆S°
       = -54070 - 298 10
       = -57050
∆G° = -2.303 RT log10k
-57050 = -2.303 8.314 298 log10k
57050 = 5705 log10k
log10k = 10

Test: Free Energy Change & Spontaneity - Question 6

For the following decom position reaction, 

ΔG° = 1700 J mol-1 at 290 K , (log 5 = 0.6990]

Thus, pressure set up is

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 6

Test: Free Energy Change & Spontaneity - Question 7

If for the cell, Zn(s) + Cu2+(ag) Cu(s) + Zn2+ (ag)entropy change ΔS° is 96.5 JK-1 mol-1, then temperature coefficient of the emf of a cell is

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 7

ΔG=ΔH−nFT(dE/dT)P
​and  ΔG=ΔH−TΔS
∴ΔS/nF=(dE/dT)P
or  
96.5/2×96500=(dE/dT)P
​∴(dEcell/dT)P
​=1×10−3 / 2
=5×10−4VK−1

Test: Free Energy Change & Spontaneity - Question 8

For the reaction, at 1000° C

ΔG° = - 24 kJ mol-1,  = 0.0030 atm.

Q. Hence, ΔG at this temperature is

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 8

Test: Free Energy Change & Spontaneity - Question 9

Direction (Q. No. 9) This sectionis based on statement I and Statement II. Select the correct answer from the code given below.

Statement I :Every endothermic reaction is spontaneous if TΔS > ΔH.

Statement II : Sign of ΔG is the true criterion for deciding spontaneity of a reaction.

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 9

Statement I: Every endothermic reaction is spontaneous if TΔS > ΔH.

Endothermic reactions have a positive ΔH (heat absorbed). For spontaneity, we use the Gibbs free energy equation:
ΔG=ΔH−TΔS\Delta G = \Delta H - T\Delta SΔG=ΔH−TΔS For a process to be spontaneous, ΔG<0\Delta G < 0ΔG<0. If TΔS>ΔHT\Delta S > \Delta HTΔS>ΔH, then ΔG\Delta GΔG becomes negative, indicating spontaneity. Hence, Statement I is correct.

Statement II: Sign of ΔG is the true criterion for deciding spontaneity of a reaction.

This is a fundamental thermodynamic principle. The sign of ΔG\Delta GΔG indeed determines whether a reaction is spontaneous (ΔG<0\Delta G < 0ΔG<0) or non-spontaneous (ΔG>0\Delta G > 0ΔG>0). Hence, Statement II is also correct.

Correct Answer: Since both statements are correct and the second statement explains the first, the correct option is:

A: Both Statement I and Statement II are correct and Statement II is the correct explanation of Statement I.

*Multiple options can be correct
Test: Free Energy Change & Spontaneity - Question 10

Direction (Q. Nos. 10 and 11) This section contains 2 multiple choice questions. Each question has four choices (a), (b), (c) and (d), out of which ONE or  MORE THANT ONE  is correct.

Q. Which of the following statements is/are true?

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 10

The entropy of a substance increases on going from the liquid to the vapour state at any temperature. It is true. As randomness increases, entropy also increases.
∆G = ∆H - T∆S. So for spontaneous reaction, all 3(T, ∆H and ∆S) are needed.
An exothermic reaction will always be spontaneous. THis is false
Reactions with a positive (ΔH° and ΔS°) can never be product favoured. False, for a larger value of T, ∆G might be negative. 
If ΔG° for a reaction is negative, the reaction will have an equilibrium constant greater than one. True, for ΔG° less than 0, reaction is spontaneous and so, ith=s eqm constant will have value greater than 1.

*Multiple options can be correct
Test: Free Energy Change & Spontaneity - Question 11

When HCI(g)and NH3(g)come in contact, they react producing a white cloud of solid NH4CI

For this,

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 11

According to me, correct options are b and d.
For a reversible reaction, ∆S°(Universe) will be zero. ∆S°(Universe) is greater than zero for an irreversible reaction. SInce the randomness decreases, ∆S°(system) becomes less than zero and ∆S°(surrounding) becomes more than zero. BOth becomes equal with sign opposite and thus for reversible reaction, ∆S°(universe) = ∆S°(System) + ∆S°(surrounding) = 0

Test: Free Energy Change & Spontaneity - Question 12

Direction (Q. Nos. 11-14) This section contains 2 paragraph, wach describing theory, experiments, data etc. three Questions related to paragraph have been given.Each question have only one correct answer among the four given options (a),(b),(c),(d).

Passage l
Sulphur undergoes a phase transition between 80 and 110°C
S(rhombic) S (monoclinic); ΔH° = 3.213 kJ mol-1; ΔS° = 8.71 JK-1 mol-1
Q. Select the correct alternate(s).

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 12

We have ∆G = ∆H - T∆S
For spontaneous reaction ∆G<0 and vice versa,
∆G at 80° C:-
3213 - (80+273)8.73 = 141.9 kJ mol-1
As it comes positive, the conversion of rhombic and monoclinic is non- spontaneous at 80° C.In other words, rhombic is more stable than monoclinic at this temperature.
∆G at 110° C:-
3213 - (110+273)8.73 = -119.1 kJ mol-1
As it comes positive, the conversion of rhombic and monoclinic is spontaneous at 110° C.In other words, rhombic is less stable than monoclinic at this temperature.

Test: Free Energy Change & Spontaneity - Question 13

Passage l

Sulphur undergoes a phase transition between 80 and 110°C
S(rhombic) S (monoclinic); ΔH° = 3.213 kJ mol-1; ΔS° = 8.71 JK-1 mol-1
Q. Temperature at which ΔG° = 0, is

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 13

We have ∆G = ∆H - T∆S
At eqm. ∆G=0,
T = ∆H/∆S
    = 3.213 kJ mol-1 / 8.71 JK-1 mol-1
    = 368.88 K

Test: Free Energy Change & Spontaneity - Question 14

Q. Select the correct alternate.
For oxidation of iron at 298 K, 4 Fe (s) + 3 O2(g) → 2 Fe2O3(s)
ΔS° = - 549.4 JK-1 mol-1 and ΔH ° = - 1648 . 0 kJ mol-1

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 14

Thus, the correct alternate would indicate that the oxidation of iron is spontaneous at 298 K.

Test: Free Energy Change & Spontaneity - Question 15

Calculate the Gibbs free energy for the reaction of conversion of ATP into ADP at 293 Kelvin the change in enthalpy is 19.07 Kcal and the change in entropy is 90 cal per Kelvin.

Detailed Solution for Test: Free Energy Change & Spontaneity - Question 15

We have ΔG = ΔH – TΔS; by substituting ΔH = 19.07 kcal and ΔS = 90 cal/K, we get ΔG = 19.07 Kcal – 293(90 cal/K) = 19.07 Kcal – 26.37 Kcal = -7300 cal = -7.3 Kcal. The Gibbs free energy change is -7.3 Kcal.

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