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Test: Chemical Equilibrium: Homogeneous Equilibrium - NEET MCQ


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20 Questions MCQ Test - Test: Chemical Equilibrium: Homogeneous Equilibrium

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Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 1

Direction (Q. Nos. 1-13) This section contains 13 multiple choice questions. Each question has four choices (a), (b), (c) and (d), out of which ONLY ONE option is correct.

Q. Given the reactions, If one mole each of A and B are take in 5 L flask at 300 K, 0.7 mole of C are formed. Molar concentration of each species at equilibrium, when one mole of each are taken initially is

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 1

None of the provided options exactly match these concentrations.

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 2

On taking 60.0 g CH3COOH and 46.0 g CH3CH2OH in a 5 L flask in the presence of H30+ (catalyst), at 298 K 44.0 g of CH3COOC2H5 is formed at equilibrium.

If amount of CH3COOH is doubled without affecting amount of CH3CH2OH, then CH3COOC2H5 formed is 

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 2

Molar mass of CH3COOH=60gmol-1
Molar mass of C2H5OH=46gmol-1
Molar mass of CH3COOC2H5=88gmol-1
∴[CH3COOH)Initial=6060×5=0.2molL-1
 [C2H5OH]Initial=4646×5=0.2molL-1
[CH3COOC2H5]eqm=4488×15=0.1molL-1
CH3COOH+C2H5OH⇔CH3COOC2H5+H2O
Initial
0.2M          0.2M
0.2M           0.2M
At eqm.
(0.2−0.1)M (0.2−0.1)M 0.1M 0.1M
(0.2-0.1)M (0.2-0.1)M 0.1M 0.1M
∴K=[CH3COOC2H5][H2O]/[CH3COOH][C2H5OH]
=0.1×0.1/0.1×0.1=1
In second case,
[CH3COOH]Initial=0.4M
[C2H5OH]Initial=0.2M
If x is the amount of acid and alcohol reacted
[CH3COOH]eqm.=(0.40-x)M
[C2H5OH]eqm.=[0.2-x]M
[CH3COOC2H5]eqm.=[H2O]eqm.=xM
∴K=x2/(0.4-x)(0.2-x)=1
x=860M
∴Moles of ethyl acetate produced =860×5=23
Mass of ethyl acetate produced =23×88=58=58.66g.

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Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 3

For the reversible reaction, 

In a reaction vessel, [NO]= [O2]= 0.01 mol L-1 and [NO2]= 0.1 mol L-1 then above reaction is 

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 3

On substituting the values of conc. of NO, O2 and NO2 in given rate equation, we get a +ve (positive) value indicating that the reaction takes place in forward direction.

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 4

The equilibrium constant for the following reaction, is 1.6 x 105 at 1024 K.

H2(g) + Br2(g) 2HBr(g)
HBr (g)at 10.0 bar is introduced into a sealed container at 1024 K. Thus, partial pressure of H2(g)and Br2(g), together is

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 4








Squaring on both sides 






=> 10 bar approximately

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 5

At 273 K and 1 atm, 1 L of N2O4 (g) decomposes to NO2(g)a s given,

N2O4(g) ⇌2NO2(g)

At equilibrium, original volume is 25% less than the existing volume. Percentage decomposition of N2O4 (g) is thus, 

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 5

Let the initial volume of N2O4 be x and initial volume of NO2 is 0
If the degree of dissociation is a, then the final volume of N2O4 is x(1−a) and NO2 is 2ax.
Initial
It equilibrium
N2O4            ⟶              2NO2
x                                       0
x(1−a)                               2ax
Total initial volume =x+0=x
Final volume =x(1−a)+2ax=x+ax=x(1+a)
It is given that the initial volume is 25% less than the final volume
x=0.75×(1+a)
1+a=1.33
a=0.33
So %age dissociation = 33.33%

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 6

H2S (g) initially at a pressure of 10.0 atm and a temperature of 800 K, dissociates as

2H2S(g) ⇌ 2H2(g) + S2(g)

At equilibrium, the partial pressure of S2 vapour is 0.020 atm . Thus, Kp is 

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 6

The correct answer is Option A.
    
                 2H2S(g) ⇌ 2H2(g) + S2(g)

Pressure
at t=0           Pi                −           −
at eqm       Pi−P            2P          P

as P=0.02    thus Pi−P=10−0.02
     Pi=10                     2P=0.04

Kp = 3.23×10−7 atm.

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 7

A sample of N2O4(g)with a pressure of 1.00 atm is placed in a flask. When equilibrium is reached, 20% of N2O4(g)has been converted to NO2(g)

If the original pressure is made 10% of the earlier pressure, then per cent dissociation will be

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 7

Correct answer is A.

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 8

Following equilibrium is set up at 1000 K and 1 bar in a 5 L flask,

At equilibrium, NO2 is 50% o f the total volume. Thus, equilibrium constant Kc is 

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 8

The correct answer is Option A.    
                N2O4  ⇌  2NO2
Initial            1                 0           
Equilibrium  1−x             2x

Total moles = 1 - x + 2x 

NO2 is 50% of the total volume when equilibrium is set up.
Thus, the volume fraction (at equilibrium) of NO2 = 50/100 = 0.5 = ½
So,    2x / (1+x) = ½
     => x = ⅓

For 1 litre;
Kc = [NO2] / [N2O4]
    = [4*(1/9)] / [⅔]
    = 0.66; 

For 5 litres; 
Kc = 0.66 / 5
= 0.133
Thus, option A is correct.
 

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 9

Following equilibrium is set up at 298 K in a 1 L flask.

If one starts with 2 moles of A and 1 mole of B, it is found that moles of B and D are equal.Thus Kc is 

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 9

For the equilibrium reaction:
A+2B ⇌ 2C+D
volume of flask = 1L
Initial moles of A = 2 mol
initial concentration of A=[A]i = 2 M
initial mole of B = 1 mol 
[B]i = 1 M
[A]eq = 2-x, [B]eq = 1-2x, [C]eq = x, [D]eq = 3x
Given [D]eq = 1 * 1L
= 1 M
Thus x = 1M
[A]eq = 1, [B]eq = -1, [C]eq = 1, [D] = 3
Kc = {([D]eq)3 * ([C]eq)}/{[A]eq * ([B]eq)2
= Kc = {(3)3*1}/{1*(-1)2}
= 27/1
= 27

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 10

At 700 K and 350 bar, a 1 : 3 mixture of N2(g) and H2(g) reacts to form an equilibrium mixture containing X (NH3)= 0.50. Assuming ideal behaviour Kp for the equilibrium reaction, 

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 10

The correct answer is option A
2.03x 10-4
The given equation is :-
 N2​(g)+3H2​(g) ⇌ 2NH3​(g)
Initial moles : 1             3         0
At eqm ;       (1−x)    (3−3x)   (2x)               
(let)
Total moles of equation
 =1 − x + 3 − 3x + 2x = (4−2x)
Now, X(NH3​) = 
⇒ 2x = 2 − x
⇒ 3x = 2 ⇒ x = 0.66 = 
32​
Now, at equation, moles of N2​= 1/3, moles of NH3​ = 4/3
             moles of H2 ​ =3 − 2 = 1

 

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 11

Equilibrium constant for the reaction,

is 1.8 x 109. Hence, equilibrium constant for

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 11

The correct answer is Option A.

NH4OH + H+ ⇌ NH4+ + H2​O

Again,
NH3 + H2O → NH4OH ⇌ NH
4++ OH-

 = [OH
-] [H+] (∵H2​O is in excess)
       =Kw
          =1×10-14
∴K = K×1×10-14
        =1.8×109×10-14
        =1.8×10-5

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 12

A gaseous phase reaction taking place in 1L flask at 400 K is given, 

Starting with 1 mole N2 and 3 moles H2, equilibrium mixture required 250 mL of 1M H2SO4 . Thus, Kc is 

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 12

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 13

For the following equilibrium starting with 2 moles SO2 and 1 mole O2 in 1 L flask,

Equilibrium mixture required 0.4 mole in acidic medium. Hence, Kc is 

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 13

0.4m of KMnO4 = 1 mole of SO2
​= 1 mole of SO
2SO2 + O2 ⇌ 2SO3
2      1         0
1      0.5       1
K = [SO3]2/[SO2]2 [O2]
= 12/(12*0.5)
= 2

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 14

Direction (Q. Nos. 14 and 15) This sectionis based on statement I and Statement II. Select the correct answer from the code given below.

Q. Statement I 

If Kc = 4 for the following equilibrium,

Then mixture of 1 mole N2, 3 moles H2 and 2 moles NH3 in 1L flask is in equilibrium.

Statement II

Reaction quotient of the given quantities is less than the equilibrium constant.

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 14

The reaction is:
N2​(g) + 3H2​(g) ⇌ 2NH3​(g)

Given:
Kc​ = 4

Step 1: Calculate the reaction quotient (Q)
The expression for Q is:

Given concentrations:

  • [N2​] = 1mol/L
  • [H2​] = 3mol/L
  • [NH3​] = 2mol/L

So,

Step 2: Compare Q with Kc

  • Kc ​= 4
  • Q = 4/27

Since Q < Kc​, the system is not at equilibrium and will shift forward to make more NH3​.

Step 3: Analyze the statements

  • Statement I: "If Kc ​= 4, then the mixture is in equilibrium."
    This is incorrect because Q ≠ Kc

  • Statement II: "The reaction quotient is less than the equilibrium constant."
    This is correct because Q = 274​ is less than Kc ​= 4.

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 15

Statement I

1 mole A(g) and 1 mole B(g)give 0.5 mole of C(g)and 0.5 mole D(g) at equilibrium.

On taking 2 moles each of A(g)and B(g), percentage dissociation A(g)and B(g) is also doubled.

Statement II

Equilibrium constant, Kc = 1

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 15

Step 1: Analyze Statement I
Statement I says:
1 mole of A(g) and 1 mole of B(g) produce 0.5 mole of C(g) and 0.5 mole of D(g) at equilibrium.
This implies the reaction:
A(g) + B(g) ⇌ C(g) + D(g)
Initially:

  • Moles of A(g) = 1
  • Moles of B(g) = 1

At equilibrium, we have:

  • 0.5 moles of C(g)
  • 0.5 moles of D(g)

So, 0.5 moles ofA and 0.5 moles of B have reacted, meaning the reaction has gone halfway to completion.
Step 2: Determine the effect of doubling the initial moles
Now, if we take 2 moles each of A(g) and B(g), the reaction should still proceed in the same manner as before, and the dissociation (reaction extent) will also double.
So, instead of 0.5 moles of A and B reacting, 1 mole of AA and 1 mole of B will react. This means the percentage dissociation ofA and B doubles, which is in line with Statement I.
Step 3: Analyze Statement II
Statement II says that the equilibrium constant Kc​ = 1.
The equilibrium constant is given by the expression:

At equilibrium, if we have:

  • 0.5 moles of C and D
  • 0.5 moles of A and B remaining

Then, assuming the volume is constant and we can use molar concentrations directly, the equilibrium constant would be:


Thus, Statement II is correct: Kc​ = 1.
Conclusion

  • Statement I is correct because the percentage dissociation of A and B doubles when their initial amounts are doubled.
  • Statement II is also correct because the equilibrium constant Kc​ = 1.

However, Statement II does not explain Statement I. The relationship between initial moles and dissociation is a separate concept from the equilibrium constant value.
Therefore, the correct answer is: Answer: D
Statement II is correct, but Statement II does not explain Statement I.

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 16

Direction (Q. Nos. 16-19) This section contains  a paragraph, each 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 I
The equilibrium reaction  has been thoroughly studied Kp = 0.148 at 298 K

If the total pressure in a flask containing NO2 and N2O4 gas at 25°C is 1.50 atm, what fraction of the N2O4 has dissociated to NO2

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 16

The correct answer is Option A.

Fraction of N2O4 dissociated = x = 0.155 (x = mole fraction)

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 17

Passage I
The equilibrium reaction  has been thoroughly studied Kp = 0.148 at 298 K

Q. If the volume of the container is increased so that the total equilibrium pressure falls to 1.00 atm, then fraction of N2O4 dissociated is

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 17

Step 1: Understanding the equilibrium reaction

The equilibrium reaction is:

At equilibrium, we know:

  • The equilibrium constant Kp​ = 0.148 at 298 K.
  • The total equilibrium pressure is reduced to 1.00 atm due to an increase in the volume of the container.

Step 2: Use the equilibrium expression for Kp

The equilibrium expression for this reaction is:

Where PNO2​​ is the partial pressure of NO2​ and PN2​O4​​ is the partial pressure of N2​O4​ at equilibrium.

Step 3: Let’s assume an initial amount of N2​O4​

Let’s assume the initial pressure of N2​O4​ before dissociation is P0​, and the partial pressure of NO2​ at equilibrium is PNO2​​. Let’s denote the fraction dissociated as x.

At equilibrium, the changes in pressures would be:

  • The partial pressure of N2​O4​ will decrease by xP0​.
  • The partial pressure of NO2​ will increase by 2xP0​ (since two moles of NO2​ are produced for each mole of N2​O4​).

Thus, the equilibrium pressures can be written as:

  • PN2​O4​​ = P0 ​− xP0
  • PNO2​​ = 2xP0

Step 4: Total pressure at equilibrium

The total pressure at equilibrium is the sum of the partial pressures:

We are told that the total pressure is 1.00 atm, so:

This equation allows us to solve for P0​ in terms of x.

Step 5: Apply the equilibrium constant expression

Substitute the equilibrium pressures into the Kp​ expression:

We know that Kp​ = 0.148, so:

Simplify the equation:

Now, substitute ​ into this equation and solve for x.

Step 6: Solve for the fraction dissociated x

After solving the equation, you will find that the fraction dissociated xxx is approximately 0.189.

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 18

Passage II

A 15 L flask at 300 K contains 64.4 g of a mixture of NO2 and N2O4 in equilibrium. Given,

Q. Kc for the above equilibrium is 

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 18

Kp = Kc(RT)n

Kp = 6.67 ,
∆n = moles of products - moles of reactants = 1-2 = -1
R = 0.0821 L atm mol-¹K-¹
T = 300K

Substitute these values in the formula,
⇒ Kc = 6.67×0.0821×300
Kc = 164.28.

Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 19

Passage II

A 15 L flask at 300 K contains 64.4 g of a mixture of NO2 and N2O4 in equilibrium. Given,

Q. Total pressure in the flask is 

Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 19

Step 1: Write the equilibrium reaction

The reaction between N2​O4​ and NO2​ is:

N2​O4​(g) ⇌ 2NO2​(g)

Step 2: Use the given data

We are given:

  • Volume of the flask = 15 L
  • Temperature = 300 K
  • Mass of the mixture = 64.4 g (which is the mass of a mixture of N2​O4​ and NO2​)

We need to find the total pressure in the flask.

Step 3: Calculate moles of N2​O4​ and NO2​

Let's assume the mixture contains xxx grams of N2​O4​ and (64.4 − x) grams of NO2​.

  • Molar mass of N2​O4​ = 92 g/mol
  • Molar mass of NO2​ = 46 g/mol

The moles of N2​O4​ and NO2​ can be calculated as:

Step 4: Use the ideal gas law to calculate pressure

We can use the ideal gas law equation:

Where:

  • P is the pressure,
  • n is the total number of moles,
  • R is the gas constant (0.0821 L·atm/mol·K),
  • T is the temperature (300 K),
  • V is the volume (15 L).

The total number of moles is the sum of the moles of N2​O4​ and NO2​:

Now, we can use the ideal gas law equation:

Substitute the values into the equation and solve for P.

Step 5: Calculate the total pressure

After performing the calculations, we find that the total pressure in the flask is approximately 1.3400 atm.

*Answer can only contain numeric values
Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 20

Direction (Q. Nos. 21) This section contains 2 questions. when worked out will result in an integer from 0 to 9 (both inclusive)

Q. For the equilibrium in gaseous phase in 2 L flask we start with 2 moles of SO2 and 1 mole of O2 at 3 atm, 
When equilibrium is attained, pressure changes to 2.5 atm. Hence, equilibrium constant Kc is


Detailed Solution for Test: Chemical Equilibrium: Homogeneous Equilibrium - Question 20

The correct answer is 4
2SO2(g) + O2(g) ⇋ 2SO3
Initial moles      2            1
At equilibrium 2 - 2x     1 - x    2x
Net moles at equilibrium  =  2 - 2x + 1 - x + 2x
=(3 - x)moles
Initial:
         moles = 3, 
    Pressure = 3 atm,
      Volume = 2L,
             PV = nRT
          3 x 2 = 3RT  -------- 1
At equilibrium
     Moles = 3 - x,
Pressure = 2.5 atm
  Volume = 2L
        P‘V = n’RT ---------- 2
Divide eqn  2 by 1

⇒2.5 = 3 - x
⇒x = 0.5

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