Solutions & Colligative Properties IIT

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m

SOLUTIONS & COLLIGATIVE PROPERTIES IIT-JEE

CONCENTRATION

1) Match the following

A) Gas in solid 1) Soda water

B) Solid in liquid 2) Brine solution

C) Solid in solid 3) Air

D) Gas in liquid 4) H₂ occluded in Pd

5) Magnalium Correct matching A B C D 1) 4 2 5 3 2) 4 5 2 1 3) 4 2 3 5 4) 4 2 5 1

Hint : Soda water = CO₂ in water Brine = NaCl in Water

Air = O₂ (and other gases) in N₂ Magnalium = Mg (1-15%) in Al (99-85%)

2) Not a homogeneous mixture

1) Soda water 2) aqueous sugar solution

3) Sodium amalgam 4) Milk

Note : In case of milk, fine liquid fat particles are dispersed in water. It is not a true solution.

3) The molarity of 500 cc of solution containing 0.2 moles of NaCl.

1) 0.2 mole L-1 _{2) 0.4 mole L}-1 _{3) 0.1 mole L}-1 _{4) 0.8 mole L}-1

Hint : Molarity is no. of moles of solute per litre of solution.

4) The molarity of H₂SO₄ solution is 2 M at 27o_{C. What will be its molarity at 100}o_{C ?}

1) = 2 M 2) < 2 M 3) > 2 M 4) All

Hint : Molarity is altered with volume of the solution.

5) The molarity of 250 ml of solution containing 0.365 g. of HCl.

1) 0.04 M 2) 0. 04 m 3) 0.01 M 4) 0. 02 M

6) What is the molarity of 2% NaOH solution ?

1) 20 M 2) 10 M 3) 0.5 M 4) 0.2 M Formula : W V X Formula weight 10 % M         

7) The molarity of 5.3% Na₂CO₃ solution of specific gravity 1.1 is

1) 0.55 M 2) 5.3 M 3) 0.53 M 4) All Formula : W W % X 10 X d Formula weight M          8) The weight of H 2SO4 in 200 mL of 0.2 M H2SO4 solution is

1) 3.92 grams 2) 39.2 grams 3) 9.8 grams 4) 0.98 grams

9) What is the weight percentage of 1 M Na₂SO

4 solution ?

1) 1.42% 2) 14.2% 3) 0.29% 4) 2.9%

Note : Weight percentage is weight of solute in 100 ml of solution.

10) The weight percentage of 4 M H

2O2 solution of the specific gravity is 1.36 is

Prepared by V. Aditya vardhan [email protected] http://groups.google.com/group/adichemadi

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m

1) w w 20 % 2) w V 10 % 3) w w 10 % 4) None

11) The density (in g. mL-1) of a 3.60 M sulfuric acid solution that is 29% H

2SO4 by mass will be

1) 1.22 2) 1.45 3) 1.64 4) 1.88 (AIEEE-2007)

12) 4.6 g of ethyl alcohol is dissolved in 1000 g of water. The molality of the solution is

1) 4.6 m 2) 0.1 m 3) 0.46 m 4) 0.01 m

Hint : Molality is no. of moles of solute dissolved in 1 Kg of solvent.

13) Two moles of glucose is dissolved in 500 mL of water. The molality will be

1) 1.8 m 2) 18 m 3) 10 m 4) 4 m

Hint : Density of water is approximately 1 g. mL-1

14) The weight of NaOH in 10 mL of 2 m NaOH solution of specific gravity 1.08 is

1) 0.8g 2) 1.6 g 3) 2 g 4) 1.08 g

15) The molality of 20%w

w NaOH solution is.

1) 20 m 2) 2 m 3) 6.25 m 4) 2.65 m

Hint: weight of solvent = weight of solution - weight of solute

16) What is the molality of 9.8% H₂SO₄ solution of specific gravity 1.098

1) 1 m 2) 1.098 m 3) 9.8 m 4) 2 m

Hint : First calculate weight of the solution weight = density X volume

17) 120 g of NaOH is added with one litre of water. The molarity of the solution formed is

1) 3 M 2) > 3 M 3) < 3 M 4) None

Hint : The final volume of the solution is more than one litre

18) The molarity of pure water is

1) 5.55M 2) 55.5M 3) 1M 4) 100M

19) For a given aqueous solution , the relation between molality (m) and molarity (M) is

1) m = M 2) m < M 3) m > M 4) All

20) One mole of a solute, occupying 100mL, is dissolved in 1000 g of a liquid ‘A’. The density of liquid ‘A’ is 2 g.mL-1 If the solution formed is ideal, then

1) M = m 2) M > m 3) M < m 4) None

21) 20 g of NaOH is present in one litre of solution. Its normality is

1) 0.5 N 2) 1 N 3) 2 N 4) 20 N 1 : ( ) . . ( ) W Formula Normality N x G E W V in lit  22) 4.9 g of H

2SO4 is present in 250 mL of solution. The molarity and normality of the solution are ,

respectively.

1) 0.1 M & 0.2N 2) 0.2M & 0.4N 3) 0.2 M & 0.2N 4) 0.1 M & 0.1N

23) The weight of H 3PO4 in 500 mL of 0.3N H3PO4 solution is. 1) 0.3 g 2) 9.8 g 3) 0.98 g 4) 4.9 g Hint : Basicity of H 3PO4 = 3 24) The normality of 5.7% Al 2(SO4)3 solution is 1) 5.7 N 2) 2 N 3) 1 N 4) None 2 4 3 ₆ FW Hint: EW of Al (SO ) 

25) The specific gravity of 31.6% w/w KMnO

4 solution is 1.5. The normality of the solution in the

acidic medium is

1) 15 2) 1.5 3) 31.6 4) 3.16

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m

% 10 : . . w X d X w Formula N G E W        7+ 2

Hint : Mn  Mn  (in acidic medium)

26) The normality of 2.36M H

2SO4 solution is

1) 4.72N 2) 1.5 3) 1.18N 4) None

Formula : N = M X basicity (for acids)

27) The molarity of 0.3N Ba(OH)

2 solution is

1) 0.6M 2) 0.3M 3) 0.1M 4) 0.15M

Formula : N = M X Acidity (for bases)

28) 5.26 g of KMnO₄ is present in 100 cc of a solution. What is its normality in basic medium.

1) 5.26N 2) 1N 3) 3.16N 4) 2N

7+ 4

Hint : Mn  Mn  (in basic medium)

29) The number of H+ ions in 100 mL of 0.1M H

2SO4

1) 6.023 X 1021 2) 1.2046 X 1022 3) 3.10 X 1021 4) All

30) The solution with least molarity is

1) 1N HCl 2) 1N H₂SO₄ 3) 1N Na₃PO₄ 4) None

31) The amount of HNO₃ to be added to double the concentration of 500mL of 1M HNO₃.

1) 63 gr 2) 6.3 gr 3) 31.5 gr 4) 12.6 gr

32) The ratio of volumes of 2 M and 4M solutions to be mixed to get 500mL of 3M solutions.

1) 1 : 2 2) 1 : 1 3) 2 : 1 4) 2 : 4

33) 500 ml of 0.4M Na

3PO4solution is diluted to 0.1M solution. The volume of solvent

required is.

1) 2000 mL 2) 1500mL 3) 1000mL 4) All

H in t : U s e M V_{1 1}  M_{2 2}V

34) 300 mL of 2M NaOH solution is added to 200 mL of 0.5M NaOH solution. What is the final molarity?

1) 14M 2) 1.4M 3) 0.7M 4) 7M 1 1 2 2 mix _{1 2} Hint: M M V_VM V_V  35) 10 mL of N

2 HCl solution is mixed with 125 mL of 2 4

N

5 H SO and the resultant solution is made up to 1 Litre. The normality of the final solution is

1) 0.03 N 2)0.01 N 3) 0.3 N 4) 0.5 N

36) What are the volumes of 3M HCl and 5M HCl solutions, respectively, to be mixed to get 2 litres of 3.5M HCl solution?

1) 1.5 L & 5 L 2) 2 L & 3 L 3) l L & l L 4) 1.5 L & 0.5 L

37) Equal volumes of lM KNO₃ and lM Al (NO₃)₃ solutions are mixed. The concentration of NO

3

-ions in the final solution is

1) 2M 2) 1M 3) 4M 4) 0.5M

Note : 1M Al(NO

3)3 contains 3M NO3

ions.

38) 10 mL of 1M Na₂CO₃ solution is made upto 1 litre by adding water. The normality of the final solution is

1) 0.01 N 2) 0.1 N 3) 0.2 N 4) 0.02 N

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m

39) 20 mL of 1M NaCl is added to 10 mL of 2 M AgNO₃. The concentration of Cl- ions in the final solution is

1) 0.5M 2) 0. 4M 3) 1.5M 4) None

Note : All the Cl- ions are precipitated out as AgCl. Hence the final concentration of Cl- will be almost zero.

40) Which of the following solutions contains more number of ions? 1) 9M KNO

3 2) 8M NaCl 3) 4M Al2(SO4)3 4) 6M Na2SO4

41) A 0.02N NaCl solution is diluted by 100 times. The number of moles of NaCl will be

1) increased 2) decreased 3) unchanged 4) Cannot say

Hint : There is no change in the number of moles of solute during dilution. Only the concentration is changed.

42) Which of the following graph represents the variation of molality (m) with temperature (T) 1) T emperature (T) M ol a lit y ( m ) 2) T emperature (T) M ol a lit y ( m ) 3) T emperature (T) M ol a lit y ( m ) 4) T emper ature (T ) M ol a lit y ( m )

Hint : Molality is independant of temperature

43) The equivalent weight of K

2Cr2O7 , when it is used as an oxidising agent in acidic medium is

(gram atomic weights of K=39.1, Cr = 52 , O = 16)

1) 98 g 2) 49 g 3) 294 g 4) None

Hint: Cr6+  Cr3+ (in acidic medium) 6

Formula weight GEW

 

44) Match the following

Reaction Equivalent weight of the reactant

A) C₂O₄2-  CO₂ 1) 2 GMW B) FeSO 4  Fe 3+ ₂₎ 1 GMW C) H₃PO₄  PO₄3- 3) 3 GMW D) KMnO 4  Mn 2+ ₄₎ 5 GMW [email protected]

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m

Correct matching is A B C D 1) 1 2 4 3 2) 1 2 3 4 3) 2 1 4 1 4) 4 3 2 1

45) The equivalent weight of H

3PO4 in the following reaction is

2 H 3PO4 + Ca(OH)2  Ca (H2PO4)2+ 2H2O 1) 1 MW 2) 2 MW 3) 3 MW 4) All

Note : Equivalent weight of a substance depends on the reaction.

46) 300 mL of 0.1M BaCl₂ is added to 100 mL of 0.1M Na₃PO₄. The amount of Ba₃(PO₄)₂

precipitate formed is

1) 10-3 moles 2) 2 x 10-3 moles 3) 5 x 10-3 moles 4) 5 x 10-2 moles

Hint : 3 BaCl

2 + 2 Na3PO4  Ba3(PO4)2 + 6 NaCl

3 moles 2 moles 1 mole

47) Choose the incorrect statement.

1) One equivalent weight of an acid is completely neutralised by one equivalent weight of a base

2) One mole of an acid is always completely neutralised by one mole of a base.

3) One equivalent weight of an oxidising agent oxidises one equivalent weight of a reducing agent

4) All are incorrect.

48) The volume of 0.1N KOH required to neutralise completely a 20mL of 0.2N H₂SO

4 is

1) 10mL 2) 40mL 3) 10mL 4) 20mL

Hint : Use the formula N

aVa=NbVb

49) 25 mL of 0.2 M Na

2CO3 is completely neutralised by 12.5 mL of HCl solution. What is the

molarity of HCl solution?

1) 0.8 M 2) 0.4 M 3) 0.2M 4) 0.1M

50) 100mL of 0.2 M KMnO₄ oxidises 50mL of oxalic acid solution in acidic medium completely. The

molarity of oxalic acid is

1) 1M 2) 0.2M 3) 0.4M 4) 2M Hint : KMnO 4 + C2O4 -2 _ Mn2+ + CO 2 oxidant reductant Formula : N oVo = NrVr N o = Mo x no. of e gained by KMnO₄ N_r= M_r x no. of e- lost by C₂O₄ 2-51) 20 mL of H₂SO

4 is required to completely neutralise 10 mL of 0.2M NaOH solution. The weight

of H₂SO₄ in 500 mL of H₂SO

4 solution is

1) 4.9g 2) 2.45g 3) 9.8g 4) None

52) 0.18gr of a metal (Atomic weight = 54g) reacts completely with 100mL of 1M HCl. The valency of the metal is

1) 1 2) 2 3) 4 4) 3

 

weight w Hint : no. of equivalents (n ) =

e equivalent weight(EW)

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m



.



. A to m ic w e ig h t A W E W v a le n c y 

53) 'x' g of a metal 'M' is completely reacted with 100 ml of 0.2N HCl. If the atomic weight of metal is ‘100x’ g, then the formula of its sulfate salt is

1) M₂SO₄ 2) MSO₄ 3) M₂(SO₄)₃ 4) M(SO₄)₂

54) 20g of a bivalent metal liberates 11.2 litres of H

2 gas at STP by reacting with excess of acid

solution . The metal is

1) Mg 2)Al 3) Ca 4) Ba

55) 10mL of 0.2M KMnO

4 solution is required to oxidise 20mL of 0.3M KI solution completely.

The change in oxidation state of ‘Mn’ in this reaction is.

1) Mn7+ _{ Mn}2+ _{2) Mn}7+ _{ Mn}3+

3) Mn4+  Mn7+ 4) Mn7+  Mn4+

H.W : Write the balanced equation for the reaction

4 6 4 2 2 2 3 2 8

KMnO  KI H O MnO  I  KOH

56) 18g of glucose is dissolved in 1800 g of water. The mole fraction of glucose is

1) 0.1 2) 0.01 3) 0.001 4) 1

nglucose Formula : X =

glucose _nglucose+ n_water

57) The mole fraction of urea in its aqueous solution is 0.23. The mole fraction of water is

1) 0.46 2) 0.77 3) 0.23 4) 1.8

58) Which method of expression of concentration has no units and independant of temperature?

1) Normality 2) Molality 3) Mole fraction 4) All

59) The mass percentage of ethyl alcohol in water is 23% w

w

. The mole fraction of alcohol is

1) 0.208 2) 0.104 3) 1.04 4) 3.26

Hint : solution contains 23 g ethyl alcohol + 77g water

60) 10 mL of a liquid (density = 4.9 g. mL-1) is dissolved in 0.18Kg of water. If the mole fraction of the liquid is 0.01, then its molecular weight will be

1) 98 g 2) 49 g 3) 4.9 g 4) 490 g

Hint : For very dilute solutions Xsolute

nsolute nsolvent



61) The molality of an aqueous solution of urea is 3 m. What will be its mole fraction?

1) 0.3 2) 0.18 3) 0.054 4) 0.003

Hint : For dilute solutions

MWsolvent molality x X_solute 1000  [email protected]

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m

VAPOUR PRESSURE

1) The vapour pressure of a liquid does not depend on

1) Nature of liquid 2) Temperature 3) Surface area 4) None

2) The rate of vapourisation of a liquid depends on

1) Temperature 2) Nature of liquid 3) Surface area 4) All

3) The vapour pressure of a liquid at its boiling point is

1) equal to atmospheric pressure 2) Lower than atmospheric pressure

3) Greater than atmospheric pressure 4) None

4) The vapour pressure of pure water at 373 K is.

1) 1 atm 2) 76 atm 3) 100 atm 4) 273 atm

5) The boiling points of liquids A,B & C are 350K , 490K and 630K respectively. The correct

diagram of graphs representing their vapour pressures against different temperatures. 1) A C B T emper ature va po ur p re ss u re 2) A C B T emper ature va po ur p re ss u re 3) A B _C T emper ature vap ou r pr es sur e 4) A B C T emper ature va po ur p re ss u re

6) Which of the following represents graph of logP against 1/T according to Clausius-clapeyron

equation (where P = vapour pressure and T = temperature) 1) lo g P 1/ T 2) lo g P 1 / T 3) lo g P 1/ T 4) lo g P 1 / T [email protected]

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m

Hint : Clausius - clapeyron’s equation is

ln P H v a p C R T 

  

H.W : What is the slope of the curve in the given graph ? Ans :

2 .3 0 3 H v a p

R  

7) Which characterizes the weak inter molecular forces of attraction in a liquid ?

1) High boiling point 2) High vapour pressure

3) High critical temperature 4) High heat of vapourisation

8) At equIlibrium, the kinetic energies of vapour and liquid are

1) Equal 2) Not equal 3) Equal only at boiling point 4) All

9) According to Raoult’s law, the partial vapour pressure of a liquid in a solution is

1) inversly proportional to its mole fraction 2) directly proportional to its mole fraction 3) equal to its mole fraction 4) greater than the vapour pressure of pure liquid.

10) According to Raoult’s law, the vapour pressure (P) of an ideal solution containing two miscible liquids i.e., A and B, is

1) o o A A B B PP X P X 2) o o A A B B PP X P X 3) o o A A B B PP X P X 4) All

11) A solution of two liquids behaves ideally when

1) Hmixture0 2) Smixture0 3) Vmixture0 4) Hmixture0

12) An ideal solution is

1) Benzene + toluene 2) n-Hexane + n-Heptane

3) Chloroben zene + Bromobenzene 4) All

13) Which, among the following solutions, shows positive deviation from Raoult’s law

1) Ethanol + Water 2) Ether + Acetone

3) Carbontetrachloride + acetone 4) All

14) The partial vapour pressure of liquid ‘A’ in a solution showing positive deviation from Raoult’s law is given by 1) P_A = P0_A X A 2) PA > P 0 A XA 3) P A < P 0 AXA 4) PA = XA

15) The vapour pressure (P) of a solution showing negative deviation from Raoult’s law is given by (solution contains two liquids i.e, A and B)

1) P = P0_A X A+ P 0 BXB 2) P = P 0 A XA - P 0 B XB 3) P< P0 AXA+ P 0 B XB 4) P > P 0 AXA+ P 0 BXB

16) The solution which shows negative deviation from Raoult’s law is 1) CH

3COOH + C5H5N 2) H2O + HNO3

3) CH₃COCH₃ + CHCl

3 4) All

17) For a solution showing positive deviation from Raoult’s law 1) H_mixing 0 2) V_mixing 0

3) Both 1 & 2 4) None

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m

18) The graph of vapour pressure of solution showing positive deviation from Raoult’s law is 1) X A va po ur p re ss u re XB 0 0 1 1 P total P0_B P0 A 2) X A va po ur p re ss u re XB 0 0 1 1 P total P0_B P0 A 3) X A va po ur p re ss u re XB 0 0 1 1 P total P0 B P0 A 4) X A va po ur p re ss u re XB 0 0 1 1 P total P0 B P0 A

H.W: Which graph shows negative deviation from Raoult’s law? Answer: 3

19) The forces of attraction in the following solution are greater than those of in their component pure liquids

1) Benzene + Toluene 2) Ethanol + Water 3) Acetone + Chloroform 4) Acetone + Ether

20) 50 mL of ethanol is mixed with 50 mL of water. The volume of the solution formed will be

1) = 100 mL 2) > 100 mL 3) < 100 mL 4) None

mix 0

Hint : V  i.e., shows positive deviation from Raoult's law

21) The vapour pressure of water at 300K in a closed container is 0.4 atm. If the volumeof the con-tainer is doubled its vapour pressure at 300K will be

1) 0.8 atm 2) 0.2 atm 3) 0.4 atm 4) 0.6 atm

22) The vapour pressure of deliquescent substance is

1) Equal to the atmospheric pressure 2) Equal to the pressure of water vapour in air

3) Greater than the pressure of water vapour in air 4) Less than the pressure of water vapour in air

Note : Deliquescent substance absorbs water from air and becomes liquid (by dissolving in water). COLLIGATIVE PROPERTIES

1) The property which depends only on the number of particles and not on the nature of particles is

1) Relative lowering of vapour pressure 2) Elevation in boiling point

3) Depression in freezing point 4) All

2) Choose the incorrect statement

1) The vapour pressure of a solution containing a non volatile solute is inversely proportional to the mole fraction of solute.

2) The lowering of vapour pressure of a solution containing a non volatile solute is proportional to the mole fraction of solute.

3) The vapour pressure of a solution containing a non volatile solute is proportional to the mole fraction of volatile solvent.

4) None.

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m

3) The vapour pressure of a dilute solution (P) containing a non volatile solute is ( Let P0

1 = vapour

pressure of pure solvent, X₁ & X₂ = molefractions of solvent and solute respectively) 1) P = P0

1 X1 2) P = P

0

1 (1-X2) 3) both 1 & 2 4) None

4) The relative lowering of vapour pressure of a dilute solution containing a non volatile solute is

1) equal to mole fraction of solute 2) equal to mole fraction of solvent

3) equal to mole fraction of solution 4) greater than mole fraction of solvent

5) 6 g of Urea is dissolved in 90g of water. The relative lowering of vapour pressure is equal to

1) 0.01 2) 0.06 3) 1.1 4) 0.02

Hint: Urea (NH₂CONH₂) is a non volatile and non electrolytic substance.

0 2

0

2

:

where = lowering of vapour pressure = vapour pressure of pure solvent = mole fraction of solute

P X P

X

Formula Relative lowering of vapour presure

P P    

6) Calculate the amount of glucose present in 90g of water when the relative lowering of vapour

pressure is 0.02.

1) 9g 2) 12g 3) 18g 4) 24g

Hint: The molecular formula of Glucose is C₆H₁₂O₆

7) The lowering of vapour pressure of a solution containing 15g of non electrolyte in 90g of water at 373K is 1.013 X 103N.m-2. The molecular weight of the solute is

1) 300g.mole-1 2) 90g.mole-1 3) 150g.mole-1 4) 135g.mole-1

Hint: 1 atm = 1.013 X 105N.m-2

8) 1g of a non volatile and non electrolytic solute is dissolved in 78g of benzene at 780_{C. The}

molecu-lar weight of solute is 100g.mole-1_{. What will be the vapour pressure of solution at 78}0_C.

1) 75.24 mm Hg 2) 780 mm Hg 3) 684 mm Hg 4) 752.4 mm Hg

Hint: The boiling point of benzene is 780_C

9) 10g of a non volatile and non electrolytic solute is dissolved in 1000g of benzene. The vapour

pressure is lowered by 0.5%. What is the molecular weight of solute?

1) 312g.mole-1 2) 156g.mole-1 _{3) 78g.mole}-1 _{4) 100g.mole}-1

0 0.5 Hint : 100 P p  

10) The vapour pressure of an a aqueous solution of sucrose is 0.99 atm at 373 K. The molality (m) of the solution is 1) 0.99m 2) 0.55m 3) 5.5m 4) 37.3m Hint: 0 = MWsolvent molality x X_solute 1000 P p  

11) The lowering of vapour pressure of 1% (w/w) aqueous solution of a non volatile and non electro-lytic solute is 1.52 mm of Hg at 373K. The molecular weight of the solute is

1) 91g 2) 180g 3) 30g 4) 909g

12) The vapour pressure of a solvent is decreased by 10mm of Hg by adding a non volatile solute. The mole fraction of solute is 0.14. What would be the molefraction of solvent if decrease in vapour pressure is 20 mm of Hg

1) 0.28 2) 0.14 3) 0.72 4) 0.86

13) A 6 % glucose solution and 2 % solution of 'x' show same relative lowering of vapour pressure. Assuming 'x' to be a non-electrolyte, the molecular weight of 'x' is

1) 30g.mole-1 _{2) 60g.mole}-1 _{3) 90g.mole}-1 _{4) 180g.mole}-1

Hint : Molefractions and hence the number of moles of glucose and ‘x’ are equal. 14) Correct pair of aqueous solutions with equal vapour pressures.

1) 0.1M urea, 0.2M sucrose 2) 0.1M NaCl, 0.1M glucose

3) 0.1M Na₂SO₄, 0.1M KCl 4) 0.2M urea, 0.1M NaCl

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m

15) The vapour pressure of aqueous solution of K₃[Fe(CN)₆] is same as that of 0.4M aqueous

solution of urea. Then the concentration of K₃[Fe(CN)₆] is

1) 0.4M 2) 0.1M 3) 0.2M 4) 0.8M     3 6 6 3 3 ( ) ( ) Hint: water _aq aq Fe CN K Fe CN K     _{ }         

16) The lowering of vapour pressure of solution containing 'X' is twice of solution containing 'Y', then (both 'X' & 'Y' are non electrolytes)

1) The MW of 'X' is twice of 'Y' 2) The MW of 'Y' is twice of 'X'

3) The mole fraction of 'X' is twice of 'Y' 4) The mole fraction of 'Y' is twice of 'X'

17) An aqueous solution of Ca(HCO₃)₂ is heated strongly and filtered. The vapour pressure of clear filtrate is

1) Greater than that of pure water 2) less than that of pure water

3) Equal to that of pure water 4) Can not say

       

2+

aq 2 3 3 2 2 ( )

Hint : Ca  HCO_aq CaCO _s  CO _g H O_l

18) The vapour pressure of an aqueous solution containing sucrose at 1000_{C is}

1) = 76 cm Hg 2) > 76 cm Hg 3) < 76 cm Hg 4) = 100 cm Hg

19) Which of the following aqueous solutions has the minimum boiling point ?

1) 0.1M NaCl 2) 0.2M urea 3) 0.1M sucrose 4) 0.05M CaCl₂

20) The vapour pressure of an aqueous solution of 0.2m glucose is 1atm at 100.360_{C. What is the}

molal boiling point elevation constant of the solvent ?

1) 1.8 2) 1.8 K.mole-1 _{3) 1.8 K.Kg.mole}-1 _{4) 1.8 Kg}-1_.mole-1

-1 b is Kelvin.Kg.mole

Hint : Elevation in boiling point = T_b K . m_b

where K_b Molal boiling point elevation constant (or) ebbulioscopic constant m Molality

Note : The unit of K

 

 

21) 0.2g of a non volatile and non electrolytic solute is dissolved in 20g of a liquid to elevate the boiling point of the liquid by 0.180_{C. The ebbulioscopic constant of the liquid is 4.212 K.Kg. mole}-1 _.

What is the molecular weight of solute ?

1) 23.4g.mole-1 _{2) 234 g.mole}-1 _{3) 117 g.mole}-1 _{4) 202g. mole}-1

2 2 1 w . .1000 Hint : ΔT_b K . m_b K b MW w   Where w₂ = wt. of solute MW₂ = Molecular wt. of solute W₁ = Weight of solvent

22) The vapour pressure of a liquid becomes equal to 1 atm at -730_{C. The molar heat of vaporisation}

and molecular weight of liquid are 40 J.mole-1 _{and 180g.mole}-1 _{respectively. What is it’s ebbulioscopic}

constant ?

1) 1.496 K.Kg.mole-1 _{2) 149.6 K.Kg.mole}-1 _{3) 1.8 K.Kg.mole}-1 _{4) 40 K.Kg.mole}-1

 

0 2 b 1 T Hint : Kb _{ΔH 1000}

vap where R Gas constant

0

T_b Boiling point of pure liquid (solvent) ΔH_vap Molar heat of vapourisation M₁ Molecular weight of liquid (solvent)

R M      [email protected]

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m

23) 0.6 g of urea is dissolved in 1 mole of propyl alcohol. The molal boiling point elevation constant of propyl alcohol is 0.18 K.Kg.mole-1_{. Calculate the elevation in boiling point.}

1) 0.03 K 2) 1.66 K 3) 3.3 K 4) 0.33 K

24) The aqueous solution showing maximum depression in freezing point is

1) 0. 1M CaCl₂ 2) 0.3M urea 3) 0.1M Na₃PO₄ 4) All

25) 2g of non electrolytic solute is dissolved in 36g of water. The depression in freezing point observed is 1.08 K. The cryoscopic constant of water is 1.8 K.Kg. mole-1_{. What is the molar mass of solute.}

1) 9.25g.mole-1 _{2) 18g.mole}-1 _{3) 92.5g.mole}-1 _{4) 180g.mole}-1

2 2 1 w . .1000

Hint : Depression in freezing point = ΔT_f K . m_f K

f MW w

 

Where K_f = molal freezing point depression constant (or) cryoscopic constant w₂ = wt. of solute

MW₂ = Molecular wt. of solute W₁ = Weight of solvent

26) The latent heat of fusion of water is 3.35 X 105_J.Kg-1_{. Calculate the depression in freezing point of}

1m aqueous solution of glucose.

1) 0.00185 K 2) 1.85 K 3) 0.0185 K 4) None

 

 

_{ }

 

2 2 0 0 f 1 f fusion f 1 f 2 0 f f 0 H = l .M . . m . f fusion T T Hint : Kf _{ΔH 1000 l 1000} fusion T l 1000 where R Gas constant

T Freezing point of pure liquid (solvent) ΔH Molar heat of fusion

l = latent he_f f R M R R T           at of fusion

M₁ Molecular weight of liquid (solvent) m = Molality



27) The freezing point of acetamide in glacial acetic acid is 298K. At this temperature, the crystals of

1) acetamide appear first 2) acetic acid appear first

3) both appear together 4) None

Hint : Always crystals of pure solvent seperate out first at the freezing point of solution.

28) How many grams of glucose should be dissolved in 100g of water in order to produce a solution with a 1050_{C difference between the freezing point and the boiling point. (K}

f = 1.86K.Kg.mol -1 and K_b = 0.51K.Kg.mole-1_). 1) 18.2g 2) 37.9g 3) 180g 4) 72g Hint : Tf Tb f T T_f0 0 b T Tb           0 0 0 f b b f 0 0 0 f b 0 f b 0 ΔT +ΔT + T -T =105 ΔT +ΔT + 100 C-0 =105 ΔT +ΔT =5 But ΔT = K m_{f f} and ΔT = K m_{b b} K m + K m = 5_{f b} C or C C C C   [email protected]

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m

29) Ethylene glycol is used as an anti freeze in radiators to

1) increase the boiling point of water 2) decrease the freezing point of water

3) decrease the boiling point of water 4) freeze the water above 00_C.

30) The depression in freezing point of an aqueous solution is 0.670_{C. What is its relative lowering of}

vapour pressure?(K_f= 1.8 K.Kg.mole-1₎

1) 0.0067 2) 0.042 3) 0.21 4) 0.42

31) Choose the correct statement

1) Spontaneous flow of solvent from dilute solution to concentrated solution through a semi permeable membrance is called osmosis.

2) According to van’t Hoff, the solute behaves as a gas and the osmotic pressure of solution is equal to the pressure exerted by solute if it were a gas at the same temperature and occupying the same volume as that of solution.

3) Reverse osmosis occurs, when a pressure greater than the osmotic pressure of solution is applied over it

4) All

32) The osmotic pressure of 0.2 molar solution of urea at 270_{C is}

1) 4.92 atm 2) 1 atm 3) 2.7 atm 4) 8.2 atm

-1 1 .K ) Hint : Osmotic pressure ( ) = CRT

n

where C = = molar concentration V

R = Gas constant (0.0821 L.atm.mole T = Absolute temperature





33) 20g of a non electrolytic solute is present in 500 mL of solution at 270_{C. The osmotic pressure of}

this solution is 1.8 atm. What is the molecular weight of the solute (in g.mole-1_{) ?}

1) 426. 2 2) 547. 3 3) 671.7 4) 323.2

34) The elevation in boiling point of an aqueous solution of glucose is 0.60_{C. What is its osmotic}

pressure at 300K ? (K_b = 1.2 K.Kg. mole-1 _{& density of solution = 1.09 g. mL}-1₎

1) 623.6 N.m-2 _{2) 1247.1 N.m}-2 _{3) 600 N.m}-2 _{4) None}

35) The aqueous solution which is isotonic with 0.1M NaCl is

1) 0.1M Glucose 2) 0.1M CH₃COOH 3) 0.1M KCl 4) All

36) Insulin is dissolved in a suitable solvent and the osmotic pressures ( in atm.) of solutions of various concentrations (C) in g/cc are measured at 270_{C. The slope of a plot of  against C is}

calculated to be 5 X 10-3_{. The approximate molecular weight of insulin is}

1) 6 4.51 X 10 g 2) 6 4.926 X 10 g 3) 5 6.32 X 10 g 4) 7 9.12 X 10 g     n W 1000 RT= X X RT V M.W V π 1000 RT W in grams Slope = = where C = C M.W V in cc 1000 RT W . is in y = mx form MW V Hint : π = note : π =      _{ }  

37) The correct order of osmotic pressure of equimolar solutions of BaCl₂, NaCl and C₆H₁₂O₆ is 1) NaCl > C H O > BaCl_{6 12 6 2} 2) BaCl > NaCl > C H O_{2 6 12 6}

3) C H O > NaCl > BaCl 6 12 6 2 4) All are equal

38) The osmotic pressure of 0.1M NaCl is greater than that of 0.1M CH₃COOH. It is due to

1) NaCl is a weak electrolyte 2) CH₃COOH is acid

3) CH₃COOH is a weak electrolyte 4) All

39) When mercuric iodide is added to an aqueous solution of KI, the

1) Osmotic pressure is decreased 2) Vapour pressure is increased

3) Freezing point is raised 4) All

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m









Hint : 2KI + HgI₂ K [HgI ]_{2 4} + -Initially 2KI gives four ions 2K and 2I

+ 2

But K [HgI ] gives only three ions 2K and [HgI ]_{2 4 4} 



40) The van’t Hoff factor (i) is given by

1) Abnormal colligative property

Normal colligative property 2)

Actual number of particles in solution Number of particles taken

3) Normal molecular weight

Abnormal molecular weight 4) All

1 Molecular weight

Hint : Value of colligative property 

41) The relation between van’t Hoff factor (i) and degree of dissociation () of a weak electrolyte ‘A’’ which dissociates by giving ‘n’ number of ions ( AnB) is

1) 1 1 i n     2) 1 1 i n     3) i n   _{4) None} Hint : A  nB initia l 1 mole 0 equilibrium (1 - ) n

Total no.of particles in the solution = (1-) + n

= 1+n-

= 1+(n-1)





Total no.of particles in the solution van't Hoff factor (i)

no.of particles taken

1 1 1 n      i = 1+(n-1) i-1=(n-1)  =_{n - 1}i - 1

42) The relation between van’t Hoff factor (i) and degree of association () of ‘A’ which associates as follows nA A_n. 1) 1 1 i n     2) 1 1 1 i n     3) 1 1 i n     4) 1 1 1 i n    

no.of particles in the solution no.of particles Hint :

initial 1 mole 0 at equilibrium (1- )

1 Total no.of particles in the solution = (1- ) + = 1+ = 1+ ( -1)

van't Hoff factor (i) =

A _An n n n n          taken 1 i-1 1 1 1 1+ ( -1) 1 1 . ., i = 1+ ( -1) i-1= ( -1) = n n i e n n        [email protected]

V

. A

D

IT

YA

V

A

R

DH

A

N

adi

ch

em

ad

i @

gm

ai

l.c

o

m

43) Choose the incorrect statement.

1) Van’t Hoff factor (i) for aqueous solution of sucrose is one.

2) Van’t Hoff factor (i) for aqueous solution of acetic acid is greater than one 3) Van’t Hoff factor (i) for a solution of acetic acid in benzene is less than one 4) None

Hint : Van’t Hoff factor ‘i’ = 1 when there is no dissociation or association i > 1 when there is dissociation

i < 1 when there is association

Acetic acid dimerizes in benzene (a solvent with low dielectric constant)

44) The degree of dissociation () of a weak electrolyte A B is related to van’t Hoff factor (i) by_{X Y}

the expression. 1) 1 1 i x y      2) 1 1 i x y      3) 1 1 i x y      4) 1 1 x y i      45) If van’t Hoff factor of Ca(NO₃)₂ is 2.3, then its percentage of dissociation is

1) 22% 2) 65% 3) 60% 4) 44%

46) The molecular weight of acetic acid dissolved in benzene is calculated as 90g.mole-1 _{by using}

osmotic pressure method. What is the percentage of association of acetic acid.

1) 0.33% 2) 0.66% 3) 90% 4) 66.6%

47) 0.01m aqueous solution of K₃[Fe (CN)₆] freezes at -0.0620_{C. Its % of dissociation is}

(K_f =1.86K.Kg. mole-1₎

1) 72% 2) 88% 3) 78% 4) 56%

48) A solution containing 0.8716 mole.L-1 _{of sucrose is iso-osmotic with a 0.5M NaCl solution. What}

is the degree of dissociation of NaCl

1) 0.7432 2) 74.32% 3) 0.8716 4) 0.3716

49) The minimum value of van’t Hoff factor if a solute undergoes trimerization in a solution is

1) 0.5 2) 1.33 3) 0.33 4) 3

50) The observed molar mass of KCl obtained by freezing point depression method is related to the actual molar mass (M) as (the degree of dissociation is x)

1) M (1 + x) 2) M / 2x 3) M (1 + x)-1 _{4) M (1 - x)}-1

51) At 250_{C, a solution containing 0.2g of poly ethene in 100 mL of toluene shows a rise of 4.8mm at}

osmotic equilibrium. The molecular weight of polyethene will be (density of the solution = 0.44g.mL-1₎

1) 5.29 X 103_{g 2) 2.98 X 10}5_{g 3) 2.39 X 10}3_{g 4) 2.39 X 10}5_g

52) A boy manured a rose plant with highly concentrated solution of urea. On the next day 1) the green colour of the plant will be improved. 2) the plant will grow taller.

3) the plant will bear more number of roses. 4) the plant will die.

Note: Key to the questions and updates, if any, can be downloaded from http://groups.google.com/group/adichemadi