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Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - NEET MCQ


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10 Questions MCQ Test Daily Test for NEET Preparation - Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13)

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Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - 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 following equilibrium,

PCl5(g)  PCl3(g) + Cl2 (g)

Vapour density is found to be 100 when 1 mole of PCI5 is taken in 10 dm3 flask at 300 K. Thus, equilibrium pressure is

Detailed Solution for Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - Question 1

Given, vapour pressure = 100
So, molecular weight = 200
Degree of dissociation;α = 1/(n-1)[Mtheo-Mobs/Mobs]

α   =   1/(2-1)×[208.5-200/208.5]
α  = 0.0425
PCl5(s)    ⇌    PCl3(g) + Cl2(g)
At start      1                 -           -     -
At eqm.  (1-0.0428)   (0.0428)  (0.0428)
Total moles at eqm. = 1.0428
Total pressure at equilibrium; pV = nRT
p = 1.0428×0.0821×300/10
p  = 2.5676 atm

Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - Question 2

In the following equilibrium at 400 K in 1 dm3 flask,

COCl2 (g)CO(g) + Cl2 (g),
ratio of theoretical and experimental vapour density is 1.4. Thus, equilibrium constant Kc is

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Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - Question 3

A(g) is 100% converted into B according to the reaction,
A(g)  3b(g)
Value of   at this point is

Detailed Solution for Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - Question 3

                   A(g)↔3B(g)
t  = 0               1             0
t1 = t1                      −x          +3x
at eq=teq                 1−x         3x
Given that x=0.90
Total moles at equilibrium= 1−x+3x = 1+2x
= 1+2(0.90) = 2.8

Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - Question 4

CCI4(g) dissociates 50% into gaseous free radicals at 1000 K and at equilibrium experimental vapour density is found to be 38.5. Thus, CCI4(g) dissociates under the given conditions to

Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - Question 5

0.578 g N2O4(g) dissociates into 1dm3 flask at 308 K to give a pressure of 24.12 kPa.
N2O4 (g)  2NO2(g)
Thus, degree of dissociation of N2O4 is 

Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - Question 6

SO3(g)is partially dissociated into SO2(g)and O2(g) at 900K and 1 atm as: 

The density of the equilibrium mixture was found to be 0.866 gdm-3. Thus, degree of dissociation of SO3 (g) is

Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - Question 7

Passage I

Vapour density of the equilibrium mixture of NO2 and N2O4 is found to be 40 for the gaseous phase equilibrium at 400 K in 1 dm3 flask.

N2O4 (g)  2NO2(g)
 

Q. Percentage of N02 in the mixture by volume is

Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - Question 8

Passage II

COCI2 (phosgene) gas dissociates according to
COCl2 (g)  CO(g) + Cl2 (g)

At 101.325 kPa and at 724 K density of the gas mixture is 1.162 g dm-3.

Q. Equilibrium constant Kp is

Detailed Solution for Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - Question 8

Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - Question 9

Direction (Q, Nos. 14 - 15) These questions are subjective in nature, need to be solved completely on notebook.

NO2 is 40.0% of the total volume at 300 K in the following equilibrium,

N2O4 (g)  2NO2(g)

Calculate the ratio of vapour density in the absence and presence of dissociation.

Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - Question 10

PCI5(g) dissociates according to the reaction at 523 K.

PCl5(g)  PCl3(g) + Cl2 (g)          KP = 1.78 atm
Compute the density of the equilibrium mixture in g dm-3 at 1 atm pressure.

Detailed Solution for Test: Law of Chemical Equilibrium and Equilibrium Constant(July 13) - Question 10

Correct answer is Option A.

PCl5   ⇌    PCl3   +    Cl2
Po(1-α)           Poα               Poα

​1.78     =     Poα2 /(1-α)
Po(1-α) =     1
Mavg     =    208.5 / (1+α)
Dmix       =    [1×208.5/ (1+α)] / [0.0821×523]
             =    2.71 g/l
             =    2.71 g/dm3
Hence, the density of the equilibrium mixture is 2.7gdm-3

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