CBSE Questions for Class 12 Engineering Chemistry Solutions Quiz 15 - MCQExams.com

The amount of anhydrous $$Na_{2}CO_{3}$$ present in 250 ml of 0.25 M solution is
  • 6.225 g
  • 66.25 g
  • 6.0 g
  • 6.625 g
When NaCl is dissolved in water 
  • boiling point of solution decreases
  • boiling point of solution increases
  • boiling point of solution remains unchanged
  • freezing point of solution increases
Moles of $${\text{N}}{{\text{a}}_{\text{2}}}{\text{S}}{{\text{O}}_{\text{4}}}$$ to be dissolved in 12 moles of water to lower its vapour pressure by 10mm Hg at a temperature at which vapour pressure of pure water is 50 mm Hg is:
  • 1.5 moles
  • 2 moles
  • 1 mole
  • 3 moles
Vapour pressure of a pure liquid X is 2 atm at 300 K. It is lowered to 1 atm on dissolving 1 g of Y in 20 g of liquid X. If molar mass of X is 200, what is the molar mass of Y?
  • 20
  • 10
  • 100
  • 30
When solute and solvent both are volatile, the vapour pressure of solution is directly proportional to mole fraction of which?
  • Solute
  • Solvent
  • Solute and Solvent
  • none
Select the correct statement(s) from the following?
  • Addition of $$Hg{I_2}$$ to aqueous solution of $$KI$$ increases the freezing point since a complex $${K_2}\left[ {Hg{I_4}} \right]$$ is formed
  • Three aqueous solutions of $$NH_3$$ labelled as A, B and C with concentration 0.1 M, 0.01 M and 0.001 M respectively, then the value of Van't Hoff factor for these solution will be in order, $${i_A} < {i_B} < {i_C}$$ (consider degree of dilution)
  • Vapour density of $$PC{l_5}\left( g \right)$$ dissociating into $$PC{l_3}\left( g \right)$$ and $$C{l_2}\left( g \right)$$ is 100, then the Van't Hoff factor will be  $$4.25$$ 
  • If $$pH$$ of $$0.1 M$$ monobasic acid is found to be 2, its osmotic pressure at a given temperature $$T$$ kelvin will be $$0.11 RT$$
Four solutions of $$K_2SO_4$$ with the following concentration $$0.1 m$$, $$0.01 m$$, $$0.001 m$$ and $$0.0001 m$$ are available. The maximum value of van't Hoff factor, i, corresponds to:
  • 0.0001 m solution
  • 0.001 m solution
  • 0.01 m solution
  • 0.1 m solution
The vapour pressure of $$CCl_4$$ at $$25^0C$$ is 143 mm of Hg. 0.5 gm of a non-volatile solute(mol. wt. 65) is dissolved in 100ml of $$CCl_4$$, the vapour pressure of the solution will be:
  • 199.34 mm Hg
  • 143.99 mm Hg
  • 141.43 mm Hg
  • 94.39 mm Hg
$$0.6g$$ urea is added to $$360g$$ water. Calculate lowering in vapor pressure for this solution 
(Given: Vapour pressure of $$H_2O$$ is $$35mm$$ of $$Hg$$)
  • $$0.027mm$$ of $$Hg$$
  • $$0.035mm$$ of $$Hg$$
  • $$0.017mm$$ of $$Hg$$
  • $$0.040mm$$ of $$Hg$$
In a mixture of $$A$$ and $$B$$, having vapour pressure of pure $$A$$ and pure $$B$$ as $$400mm\, Hg$$ and $$600mm\, Hg$$ respectively, mole fraction of $$B$$ in liquid phases is $$0.5$$. Calculate total vapour pressure and mole fraction of $$A$$ and $$B$$ in vapour phases.
  • $$500, 0.4, 0.6$$
  • $$500, 0.5, 0.5$$
  • $$450, 0.4, 0.6$$
  • $$450, 0.5, 0.5$$
When a substance is dissolved in a solvent, the vapour pressure of solvent decrease.  It brings
  • a decrcase in boilings point of solution
  • an increase in boiling point of the solution
  • a decrease in freezing point of the solution
  • an increase in freezeing point of the solution
A sample of pure Cu $$(3.18\,g)$$ when heated in the presence of oxygen forms a black oxide of copper $$(CuO)$$. The final weight of CuO is $$3.92$$g. The percent of Cu oxidised is
  • $$65\%$$
  • $$69\%$$
  • $$76\%$$
  • $$98\%$$
One mol of a solute A is dissolved in a given volume of a solvent. The association of the solute take place according to $$n A = (A)_n$$. The van't Hoff factor i is expressed as
  • $$i = 1 - x$$
  • $$i = 1 + \dfrac{x}{n}$$
  • $$i = \dfrac{i - x + \dfrac{x}{n}}{1}$$
  • $$i = 1$$
How many types of solutions are possible by the combination of any two of three states of matter (solid, liquid, and gas)
  • $$3$$
  • $$6$$
  • $$9$$
  • $$18$$
What is the percentage of hydrogen by wt.in vitamin $$C$$ ?
  • $$4.55\%$$
  • $$41\%$$
  • $$20.5\%$$
  • $$9.11\%$$
What is the percentage of carbon, by wt. in vitamin $$C$$ ?
  • $$66.67\%$$
  • `$$40.9\%$$
  • $$20\%$$
  • $$60\%$$
1.0 g of moist sample of a mixture of $$KCl$$ and $$KClO_3$$ was dissolved in water and made up to 250mL. 25 mL of this solution was treated with $$SO_2$$. The chlorate was reduced to chloride and an excess of $$SO_2$$ was removed by boiling. The total chloride was precipitated as $$AgCl$$ weighing 0.1435 g. In another experiment, 25 mL of the original solution was heated with 30 mL of 0.2 N solution of ferrous sulphate and the unreacted ferrous sulphate required 37.5 mL of 0.08 N solution of an oxidising agent for complete oxidation. For the given reaction:

$$ClO_3^{ɵ} +6Fe^{2+}+6H^{+} \rightarrow Cl^{ɵ}+6Fe^{3+}+3H_2O$$

What is the mass per cent of potassium chloride in the moist sample?
  • 37.25%
  • 61.25%
  • 3.725%
  • 74.5%
What is the percentage of silica present in the ore, by weight?
  • $$2.82$$
  • $$3.02$$
  • $$0.465$$
  • $$6.05$$
Calculate van't Hoff factor for $$0.2\ m$$ aqueous solution of $$KCl$$ which freezes at $$-0.680^o$$C. ($$K_f=1.86$$ K kg $$mol^{-1}$$)
  • $$3.72$$
  • $$1.83$$
  • $$6.8$$
  • $$1.86$$
A $$1.50\ g$$ sample of type metal (an alloy of $$Sn, pb, Cu$$ and $$Sb$$) is dissolved in nitric acis and metastannic acid, $$H_2SnO_3$$, prpitates. This is delydrated by heating to tin $$(IV)$$ oxide, which is found to weight $$0.50\ g$$. What percentage of tin was in the original type metal sample? $$(Sn=119)$$
  • $$33.33\%$$
  • $$26.27\%$$
  • $$29.38\%$$
  • $$52.54\%$$
When the air temperature is below freezing, the saturation vapor pressure over water is _______.
  • Equal to zero
  • Less than the saturation vapor pressure over ice
  • Greater than the saturation vapor pressure over ice
  • Equal to the saturation vapor pressure over ice
To determine soluble (free) $$SiO_2$$ in a rock, an alkaline extraction was carried out, as a result of which there was found $$1.52\%$$ of $$SiO_2$$ in the extract and also $$1.02\%$$ of $$Al_2O_3$$. Considering that, apart from the free $$SiO_2$$, the extract also contained the $$SiO_2$$, that had passed into it from Kaolin $$(2SiO_2, Al_2O_3)$$, the percentage of $$SiO_2$$, in the rock being analysed is $$(Si=28, Al=27)$$
  • $$1.20$$
  • $$0.32$$
  • $$0.50$$
  • $$1.52$$
How much slurry obtained per hour?
  • $$5000\ kg$$
  • $$500\ kg$$
  • $$19,500\ kg$$
  • $$20,000\ kg$$
How much water is evaporated per hour?
  • $$500\ kg$$
  • $$500\ kg$$
  • $$19,500\ kg$$
  • $$20, 000\ kg$$
How much concentrated solution obtained per hour?
  • $$5000\ kg$$
  • $$500\ kg$$
  • $$19,500\ kg$$
  • $$20,000\ kg$$
In $$200\ g$$ of a sample of olem labelled as $$109.0\% ,\ 12\ g$$ water is added. The new labelling of the oleum sample is 
  • $$106.0\%$$
  • $$103.0\%$$
  • $$102.8\%$$
  • $$105.6\%$$
Directions: In the following questions, a statement of assertion is followed by a statement of reason. Mark the correct choice:

Assertion: Unseeing of vapour pressure is not dependent on the number of species present in the solution.
Reason : Lowering of vapour pressure and relative lowering of vapour pressure are colligative properties.
  • If both assertion and reason are true and reason is the correct explanation of assertion.
  • If both assertion and reason are true but reason is not the correct explanation of assertion.
  • If assertion is true but reason is false.
  • If both assertion and reason are false.
Directions: In the following questions, a statement of assertion is followed by a statement of reason. Mark the correct choice:

Assertion: The vapour pressure of an aqueous solution is less than 1.013 bar at 373.15 K.
Reason: Vapour pressure of water is 1.013 bar at 373.15K.
  • If both assertion and reason are true and reason is the correct explanation of assertion.
  • If both assertion and reason are true but reason is not the correct explanation of assertion
  • If assertion is true but reason is false.
  • If both assertion and reason are false.
Which of the following is correct for an ideal solution?
  • $$\Delta H_{mix} = 0$$
  • $$\Delta S_{mix} = 0$$
  • $$\Delta G_{mix} = 0$$
  • None of these
$$2.0\ g$$ mixture of sodium carbonate and sodium bicarbonate on heating to constant weight gave $$224\ mL$$ of $$CO_{2}$$ at N.T.P.
The $$\%$$ weight of sodium bicarbonate in the mixture is:
  • $$50$$
  • $$54$$
  • $$80$$
  • $$84$$
The compound $$Na_2 CO_3 . x H_2O$$ has $$50  \%  H_2O$$ by mass. The value of "x" is :
  • 4
  • 5
  • 6
  • 7
  • 8
The vapour pressure of pure liquid A at $$ 27^0 C $$ is
  • 60 torr
  • 48 torr
  • 49.26 torr
  • 61.58 torr
If the experimenty is performed aqueous $$ AlCl_3 $$ solution (a= 0.8 ) prepared by dissolving 1 mole of $$ AlCl_3 $$ in 17 mole of water and the decrease in the mass of solution in the experiment is found to be 0.18 g then the increase in the mass of absorbent should be
  • 0.216 g
  • 0.225 g
  • 0.191 g
  • 1.08 g
At $$80^o C$$, the vapour pressure of pure liquid A is 520 mm Hg and that of pure liquid B is 1000 mm Hg. If a mixture solution of A and B boils at $$80^o C$$and 1 atm pressure, the amount of A in the mixture is :
(1 atm=760 mm Hg)
  • 34 mol%
  • 48 mol%
  • 50 mol%
  • 52mol%
Sugar in urine sample can be detected by:
  • Fehling's solution
  • Benedict's solution
  • Tollen's reagent
  • all the three $$(a), (b)$$ and $$(c)$$
$$50 mL$$ of solution of $$ Na_2CO_3 $$ neutralizes $$49.35 mL$$ of $$4 N \ HCl$$ . the reaction is represented as 
$$ CO^{2-}_3 +2H^+ \rightarrow CO_2 +H_2O $$
The density of this $$ Na_2CO_3 $$ solution is 1.25 g $$ mL^{-1} ,$$ the percentage of $$  Na_2CO_3$$ in it is :
  • $$47.7$$
  • $$37.7$$
  • $$26.7$$
  • $$16.7$$
Dry air is bubbled successively through (i) a solution, (ii) its solvent, and (iii) through $$CaCl_2$$. The lowering of vapour pressure of the solvent due to the addition of solute is equal to  
  • $$p^0 \times \dfrac {loss\ in\ wt. of\ solvent}{gain\ in\ wt\ of\ CaCl_2}$$
  • $$\dfrac {loss\ in\ wt. of\ solvent}{gain\ in\ wt\ of\ CaCl_2}$$
  • $$\dfrac {loss\ in\ wt. of\ solution}{gain\ in\ wt\ of\ CaCl_2}$$
  • $$\dfrac {loss\ in\ wt. of\ solute}{gain\ in\ wt\ of\ CaCl_2}$$
The reading of pressure gauge at bubble point is :
  • 500
  • 600
  • 700
  • None
The reading of pressure gauge at which only vapour phase exists is
  • 501
  • 457.14
  • 425
  • 525
The vapour pressure of two micible liquid A and B are 300 and 500 mm of Hf respectively. in a flask , 2 moles of A are mixed with  moles of B. further to the mixture , 32 g of an ionic non -volatile solute MCI (partially ionised, mol mass = 70 u) were also added. thus, the final vapour pressure of solution was found to be 420 mm and Hg. Then, identify the correct statement(s). (Assume the liquid mixture of A and B to behave ideally).
  • The numerical value of relative lowering in vapour pressure upon addition of solute MCI is 1/15
  • Th solute MCI is 25 % ionised in the above question.
  • The solute MCI is 23.33 % ionised in the above question
  • Upon addition of excess $$ Pb(NO_3)_2 $$ the number of moles of $$ PbCl_2 $$ precipitated is 2/ 35 .
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