NEET Exam  >  NEET Notes  >  Chemistry Class 11  >  DPP for NEET: Daily Practice Problems, Ch: Equilibrium

Equilibrium Practice Questions - DPP for NEET

Download, print and study this document offline
Please wait while the PDF view is loading
 Page 1


PART-I (Single Correct MCQs)
1. K
c
 for the reaction
N
2
 (g) + O
2
 (g)  2NO (g)
at 300 K is 4.0 × 10
–6
. K
p
 for the above reaction will be
(R = 2 cal mol
–1
 K
–1
)
(a) 2.4 × 10
–3
(b) 4 × 10
–6
(c) 4 × 10
–6
 (RT)
2
(d) 16 × 10
–12
2. The dissociation constant of a weak acid is 1 × 10
– 4
. In order to prepare
a buffer solution with a pH = 5 the [Salt]/[Acid] ratio should be
(a) 1 : 10
(b) 4 : 5
(c) 10 : 1
(d) 5 : 4
3. The exothermic formation of ClF
3
 is represented by the equation :
Page 2


PART-I (Single Correct MCQs)
1. K
c
 for the reaction
N
2
 (g) + O
2
 (g)  2NO (g)
at 300 K is 4.0 × 10
–6
. K
p
 for the above reaction will be
(R = 2 cal mol
–1
 K
–1
)
(a) 2.4 × 10
–3
(b) 4 × 10
–6
(c) 4 × 10
–6
 (RT)
2
(d) 16 × 10
–12
2. The dissociation constant of a weak acid is 1 × 10
– 4
. In order to prepare
a buffer solution with a pH = 5 the [Salt]/[Acid] ratio should be
(a) 1 : 10
(b) 4 : 5
(c) 10 : 1
(d) 5 : 4
3. The exothermic formation of ClF
3
 is represented by the equation :
 ? 2ClF
3
(g) ;  = – 329 kJ
Which of the following will increase the quantity of ClF
3
 in an equilibrium
mixture of Cl
2
, F
2
 and ClF
3
?
(a) Adding 
(b) Increasing the volume of the container
(c) Removing Cl
2
(d) Increasing the temperature
4. The K
sp
 of Ag
2
CrO
4
, AgCl, AgBr and AgI are respectively, 1.1 × 10
–12
,
1.8 × 10
–10
, 5.0 × 10
–13
, 8.3 × 10
–17
. Which one of the following salts will
precipitate last if AgNO
3
 solution is added to the solution containing
equal moles of NaCl, NaBr, NaI and Na
2
CrO
4
?
(a) AgCl
(b) AgBr
(c) Ag
2
CrO
4
(d) AgI
5. MY and NY
3
, two nearly insoluble salts, have the same K
sp
 values of 6.2
× 10
–13
 at room temperature. Which statement would be true in regard to
MY and NY
3
 ?
(a) The molar solubilities of MY and NY
3
 in water are identical.
(b) The molar solubility of MY in water is less than that of NY
3
(c) The salts MY and NY
3
 are more soluble in 0.5 M KY than in pure
water.
(d) The addition of the salt of KY to solution of MY and NY
3
 will have no
effect on their solubilities.
6. The following reaction is performed at 298 K.
2NO(g) + O
2
(g) ? 2NO
2
(g)
The standard free energy of formation of NO(g) is 86.6 kJ/mol at 298 K.
What is the standard free energy of formation of NO
2
(g) at 298 K? (K
p
 =
Page 3


PART-I (Single Correct MCQs)
1. K
c
 for the reaction
N
2
 (g) + O
2
 (g)  2NO (g)
at 300 K is 4.0 × 10
–6
. K
p
 for the above reaction will be
(R = 2 cal mol
–1
 K
–1
)
(a) 2.4 × 10
–3
(b) 4 × 10
–6
(c) 4 × 10
–6
 (RT)
2
(d) 16 × 10
–12
2. The dissociation constant of a weak acid is 1 × 10
– 4
. In order to prepare
a buffer solution with a pH = 5 the [Salt]/[Acid] ratio should be
(a) 1 : 10
(b) 4 : 5
(c) 10 : 1
(d) 5 : 4
3. The exothermic formation of ClF
3
 is represented by the equation :
 ? 2ClF
3
(g) ;  = – 329 kJ
Which of the following will increase the quantity of ClF
3
 in an equilibrium
mixture of Cl
2
, F
2
 and ClF
3
?
(a) Adding 
(b) Increasing the volume of the container
(c) Removing Cl
2
(d) Increasing the temperature
4. The K
sp
 of Ag
2
CrO
4
, AgCl, AgBr and AgI are respectively, 1.1 × 10
–12
,
1.8 × 10
–10
, 5.0 × 10
–13
, 8.3 × 10
–17
. Which one of the following salts will
precipitate last if AgNO
3
 solution is added to the solution containing
equal moles of NaCl, NaBr, NaI and Na
2
CrO
4
?
(a) AgCl
(b) AgBr
(c) Ag
2
CrO
4
(d) AgI
5. MY and NY
3
, two nearly insoluble salts, have the same K
sp
 values of 6.2
× 10
–13
 at room temperature. Which statement would be true in regard to
MY and NY
3
 ?
(a) The molar solubilities of MY and NY
3
 in water are identical.
(b) The molar solubility of MY in water is less than that of NY
3
(c) The salts MY and NY
3
 are more soluble in 0.5 M KY than in pure
water.
(d) The addition of the salt of KY to solution of MY and NY
3
 will have no
effect on their solubilities.
6. The following reaction is performed at 298 K.
2NO(g) + O
2
(g) ? 2NO
2
(g)
The standard free energy of formation of NO(g) is 86.6 kJ/mol at 298 K.
What is the standard free energy of formation of NO
2
(g) at 298 K? (K
p
 =
1.6 × 10
12
)
(a) 86600 – 
(b) 0.5[2 × 86,600 – R(298) ln(1.6 × 10
12
)]
(c) R(298) ln(1.6 × 10
12
) – 86600
(d) 86600 + R(298) ln(1.6 × l0
12
)
7. The equilibrium constant of the following are :
N
2
 + 3H
2
  ? 2NH
3
K
1
N
2
 + O
2
  ? 2NO K
2
K
3
The equilibrium constant (K) of the reaction :
  2NO + 3H
2
O, will be;
(a)
(b) K
2
K
3
/K
1
(c)
(d)
8. The %yield of ammonia as a function of time in the reaction
N
2
(g) + 3H
2
(g) ? 2NH
3
(g), ?H < 0 at (P, T
1
) is given below
If this reaction is conducted at (P, T
2
), with T
2
 > T
1
, the %yield of ammonia
as a function of time is represented by
Page 4


PART-I (Single Correct MCQs)
1. K
c
 for the reaction
N
2
 (g) + O
2
 (g)  2NO (g)
at 300 K is 4.0 × 10
–6
. K
p
 for the above reaction will be
(R = 2 cal mol
–1
 K
–1
)
(a) 2.4 × 10
–3
(b) 4 × 10
–6
(c) 4 × 10
–6
 (RT)
2
(d) 16 × 10
–12
2. The dissociation constant of a weak acid is 1 × 10
– 4
. In order to prepare
a buffer solution with a pH = 5 the [Salt]/[Acid] ratio should be
(a) 1 : 10
(b) 4 : 5
(c) 10 : 1
(d) 5 : 4
3. The exothermic formation of ClF
3
 is represented by the equation :
 ? 2ClF
3
(g) ;  = – 329 kJ
Which of the following will increase the quantity of ClF
3
 in an equilibrium
mixture of Cl
2
, F
2
 and ClF
3
?
(a) Adding 
(b) Increasing the volume of the container
(c) Removing Cl
2
(d) Increasing the temperature
4. The K
sp
 of Ag
2
CrO
4
, AgCl, AgBr and AgI are respectively, 1.1 × 10
–12
,
1.8 × 10
–10
, 5.0 × 10
–13
, 8.3 × 10
–17
. Which one of the following salts will
precipitate last if AgNO
3
 solution is added to the solution containing
equal moles of NaCl, NaBr, NaI and Na
2
CrO
4
?
(a) AgCl
(b) AgBr
(c) Ag
2
CrO
4
(d) AgI
5. MY and NY
3
, two nearly insoluble salts, have the same K
sp
 values of 6.2
× 10
–13
 at room temperature. Which statement would be true in regard to
MY and NY
3
 ?
(a) The molar solubilities of MY and NY
3
 in water are identical.
(b) The molar solubility of MY in water is less than that of NY
3
(c) The salts MY and NY
3
 are more soluble in 0.5 M KY than in pure
water.
(d) The addition of the salt of KY to solution of MY and NY
3
 will have no
effect on their solubilities.
6. The following reaction is performed at 298 K.
2NO(g) + O
2
(g) ? 2NO
2
(g)
The standard free energy of formation of NO(g) is 86.6 kJ/mol at 298 K.
What is the standard free energy of formation of NO
2
(g) at 298 K? (K
p
 =
1.6 × 10
12
)
(a) 86600 – 
(b) 0.5[2 × 86,600 – R(298) ln(1.6 × 10
12
)]
(c) R(298) ln(1.6 × 10
12
) – 86600
(d) 86600 + R(298) ln(1.6 × l0
12
)
7. The equilibrium constant of the following are :
N
2
 + 3H
2
  ? 2NH
3
K
1
N
2
 + O
2
  ? 2NO K
2
K
3
The equilibrium constant (K) of the reaction :
  2NO + 3H
2
O, will be;
(a)
(b) K
2
K
3
/K
1
(c)
(d)
8. The %yield of ammonia as a function of time in the reaction
N
2
(g) + 3H
2
(g) ? 2NH
3
(g), ?H < 0 at (P, T
1
) is given below
If this reaction is conducted at (P, T
2
), with T
2
 > T
1
, the %yield of ammonia
as a function of time is represented by
(a)
(b)
(c)
(d)
9. Concentration of the Ag
+
 ions in a saturated solution of Ag
2
C
2
O
4
 is 2.2 ×
10
–4 
mol L
–1
. Solubility product of Ag
2
C
2
O
4
 is :-
(a) 2.66 × 10
–12
(b) 4.5 × 10
–11
(c) 5.3 × 10
–12
(d) 2.42 × 10
–8
10. The degree of dissociation of  obeying the equilibrium 
Page 5


PART-I (Single Correct MCQs)
1. K
c
 for the reaction
N
2
 (g) + O
2
 (g)  2NO (g)
at 300 K is 4.0 × 10
–6
. K
p
 for the above reaction will be
(R = 2 cal mol
–1
 K
–1
)
(a) 2.4 × 10
–3
(b) 4 × 10
–6
(c) 4 × 10
–6
 (RT)
2
(d) 16 × 10
–12
2. The dissociation constant of a weak acid is 1 × 10
– 4
. In order to prepare
a buffer solution with a pH = 5 the [Salt]/[Acid] ratio should be
(a) 1 : 10
(b) 4 : 5
(c) 10 : 1
(d) 5 : 4
3. The exothermic formation of ClF
3
 is represented by the equation :
 ? 2ClF
3
(g) ;  = – 329 kJ
Which of the following will increase the quantity of ClF
3
 in an equilibrium
mixture of Cl
2
, F
2
 and ClF
3
?
(a) Adding 
(b) Increasing the volume of the container
(c) Removing Cl
2
(d) Increasing the temperature
4. The K
sp
 of Ag
2
CrO
4
, AgCl, AgBr and AgI are respectively, 1.1 × 10
–12
,
1.8 × 10
–10
, 5.0 × 10
–13
, 8.3 × 10
–17
. Which one of the following salts will
precipitate last if AgNO
3
 solution is added to the solution containing
equal moles of NaCl, NaBr, NaI and Na
2
CrO
4
?
(a) AgCl
(b) AgBr
(c) Ag
2
CrO
4
(d) AgI
5. MY and NY
3
, two nearly insoluble salts, have the same K
sp
 values of 6.2
× 10
–13
 at room temperature. Which statement would be true in regard to
MY and NY
3
 ?
(a) The molar solubilities of MY and NY
3
 in water are identical.
(b) The molar solubility of MY in water is less than that of NY
3
(c) The salts MY and NY
3
 are more soluble in 0.5 M KY than in pure
water.
(d) The addition of the salt of KY to solution of MY and NY
3
 will have no
effect on their solubilities.
6. The following reaction is performed at 298 K.
2NO(g) + O
2
(g) ? 2NO
2
(g)
The standard free energy of formation of NO(g) is 86.6 kJ/mol at 298 K.
What is the standard free energy of formation of NO
2
(g) at 298 K? (K
p
 =
1.6 × 10
12
)
(a) 86600 – 
(b) 0.5[2 × 86,600 – R(298) ln(1.6 × 10
12
)]
(c) R(298) ln(1.6 × 10
12
) – 86600
(d) 86600 + R(298) ln(1.6 × l0
12
)
7. The equilibrium constant of the following are :
N
2
 + 3H
2
  ? 2NH
3
K
1
N
2
 + O
2
  ? 2NO K
2
K
3
The equilibrium constant (K) of the reaction :
  2NO + 3H
2
O, will be;
(a)
(b) K
2
K
3
/K
1
(c)
(d)
8. The %yield of ammonia as a function of time in the reaction
N
2
(g) + 3H
2
(g) ? 2NH
3
(g), ?H < 0 at (P, T
1
) is given below
If this reaction is conducted at (P, T
2
), with T
2
 > T
1
, the %yield of ammonia
as a function of time is represented by
(a)
(b)
(c)
(d)
9. Concentration of the Ag
+
 ions in a saturated solution of Ag
2
C
2
O
4
 is 2.2 ×
10
–4 
mol L
–1
. Solubility product of Ag
2
C
2
O
4
 is :-
(a) 2.66 × 10
–12
(b) 4.5 × 10
–11
(c) 5.3 × 10
–12
(d) 2.42 × 10
–8
10. The degree of dissociation of  obeying the equilibrium 
+ is related to the equilibrium pressure by
(a)
(b)
(c)
(d)
11. A 20 litre container at 400 K contains CO
2
(g) at pressure 0.4 atm and an
excess of SrO (neglect the volume of solid SrO). The volume of the
container is now decreased by moving the movable piston fitted in the
container. The maximum volume of the container, when pressure of CO
2
attains its maximum value, will be :-
(Given that :  SrCO
3
 (s)  ? SrO (s) + CO
2
(g), Kp = 1.6 atm)
(a) 10 litre
(b) 4 litre
(c) 2 litre
(d) 5 litre
12. The first and second dissociation constants of an acid H
2
A are 1.0 × 10
–5
and 5.0 × 10
–10
 respectively. The overall dissociation constant of the acid
will be
(a) 0.2 × 10
5
(b) 5.0 × 10
–5
(c) 5.0 × 10
15
(b) 5.0 × 10
–15
13. In a saturated solution of the sparingly soluble strong  electrolyte AgIO
3
(molecular mass = 283) the equilibrium which sets is AgIO
3
(s)  
Read More
129 videos|233 docs|88 tests

Top Courses for NEET

FAQs on Equilibrium Practice Questions - DPP for NEET

1. What is NEET?
Ans. NEET stands for the National Eligibility cum Entrance Test. It is a national level entrance exam conducted in India for students who wish to pursue undergraduate medical and dental courses (MBBS and BDS) in government or private medical colleges.
2. How is the NEET exam structured?
Ans. The NEET exam consists of multiple-choice questions (MCQs) from subjects like Physics, Chemistry, and Biology. It is conducted offline (pen and paper-based) and has a total of 180 questions. Each correct answer carries 4 marks, while each incorrect answer results in a deduction of 1 mark.
3. What is the importance of practicing daily problems for NEET?
Ans. Daily practice problems (DPP) are crucial for NEET preparation as they help in reinforcing the concepts, improving problem-solving skills, and increasing speed and accuracy. Regular practice also familiarizes students with the exam pattern, enhances confidence, and identifies areas that need more attention.
4. How can one effectively prepare for the Equilibrium chapter in NEET?
Ans. To effectively prepare for the Equilibrium chapter in NEET, students should start by thoroughly understanding the concepts and principles related to chemical equilibrium. They should practice solving a variety of numerical problems, analyze previous year question papers, and refer to reliable study materials. Regular revision and taking mock tests can also help in strengthening their knowledge and improving performance.
5. Are there any common misconceptions or mistakes to avoid while studying Equilibrium for NEET?
Ans. Yes, there are a few common misconceptions and mistakes to avoid while studying Equilibrium for NEET. Some students mistakenly assume that equilibrium means no change is occurring, whereas it actually refers to a dynamic balance between forward and backward reactions. Students should also be cautious about neglecting or underestimating the significance of equilibrium constants, as they play a crucial role in determining the extent of a reaction. Additionally, understanding the concept of Le Chatelier's principle and its application is essential to avoid misconceptions when analyzing the effect of various factors on equilibrium.
129 videos|233 docs|88 tests
Download as PDF
Explore Courses for NEET exam

Top Courses for NEET

Signup for Free!
Signup to see your scores go up within 7 days! Learn & Practice with 1000+ FREE Notes, Videos & Tests.
10M+ students study on EduRev
Related Searches

Objective type Questions

,

Extra Questions

,

shortcuts and tricks

,

Exam

,

practice quizzes

,

Equilibrium Practice Questions - DPP for NEET

,

video lectures

,

Equilibrium Practice Questions - DPP for NEET

,

study material

,

mock tests for examination

,

past year papers

,

pdf

,

Previous Year Questions with Solutions

,

ppt

,

Summary

,

Free

,

Semester Notes

,

Sample Paper

,

Viva Questions

,

Equilibrium Practice Questions - DPP for NEET

,

MCQs

,

Important questions

;