Solved Examples - Some Basic Concepts of Chemistry, CBSE, Class 11, Chemistry
Solved Objective
Ex.1 8 litre of H2 and 6 litre of Cl2 are allowed to react to maximum possible extent. Find out the final volume of reaction mixture. Suppose P and T remains constant throughout the course of reaction -
(A) 7 litre (B) 14 litre (C) 2 litre (D) None of these.
Sol. (B)
H2 Cl2 → 2 HCl
Volume before reaction 8 lit 6 lit 0
Volume after reaction 2 0 12
Volume after reaction
= Volume of H2 left Volume of HCl formed = 2 12 = 14 lit
Ex.2 Naturally occurring chlorine is 75.53% Cl35 which has an atomic mass of 34.969 amu and 24.47% Cl37 which has a mass of 36.966 amu. Calculate the average atomic mass of chlorine-
(A) 35.5 amu (B) 36.5 amu (C) 71 amu (D) 72 amu
Sol. (A)
Average atomic mass
= = = 35.5 amu.
Ex.3 Calculate the mass in gm of 2g atom of Mg-
(A) 12 gm (B) 24 gm (C) 6 gm (D) None of these.
Sol. (D)
Q 1 gm atom of Mg has mass = 24 gm
2 gm atom of Mg has mass = 24 x 2 = 48 gm.
Ex.4 In 5 g atom of Ag (At. wt. of Ag = 108), calculate the weight of one atom of Ag -
(A) 17.93 × 10-23gm (B) 16.93 × 10-23 gm
(C) 17.93 × 1023 gm (D) 36 × 10-23 gm
Sol. (A)
Q N atoms of Ag weigh 108 gm
1 atom of Ag weigh = = = 17.93 × 10-23 gm.
Ex.5 In 5g atom of Ag (at. wt. = 108), calculate the no. of atoms of Ag -
(A) 1 N (B) 3N (C) 5 N (D) 7 N.
Sol. (C)
Q 1 gm atom of Ag has atoms = N
5 gm atom of Ag has atoms = 5N.
Ex.6 Calculate the mass in gm of 2N molecules of CO2 -
(A) 22 gm (B) 44 gm (C) 88 gm (D) None of these.
Sol. (C)
Q N molecules of CO2 has molecular mass = 44.
2N molecules of CO2 has molecular mass = 44 x 2 = 88 gm.
Ex.7 How many carbon atoms are present in 0.35 mol of C6H12O6 -
(A) 6.023 × 1023 carbon atoms (B) 1.26 × 1023 carbon atoms
(C) 1.26 × 1024 carbon atoms (D) 6.023 × 1024 carbon atoms
Sol. (C)
1 mol of C6H12O6 has = 6 N atoms of C
0.35 mol of C6H12O6 has = 6 × 0.35 N atoms of C
= 2.1 N atoms = 2.1 × 6.023 × 1023 = 1.26 × 1024 carbon atoms
Ex.8 How many molecules are in 5.23 gm of glucose (C6H12O6) -
(A) 1.65 × 1022 (B) 1.75 × 1022 (C) 1.75 × 1021 (D) None of these
Sol. (B)
Q 180 gm glucose has = N molecules
5.23 gm glucose has = = 1.75 × 1022 molecules
Ex.9 What is the weight of 3.01 × 1023 molecules of ammonia -
(A) 17 gm (B) 8.5 gm (C) 34 gm (D) None of these
Sol. (B)
Q 6.023 × 1023 molecules of NH3 has weight = 17 gm
3.01 × 1023 molecules of NH3 has weight
= = 8.50 gm
Ex.10 How many significant figures are in each of the following numbers -
(a) 4.003 (b) 6.023 × 1023 (c) 5000
(A) 3, 4, 1 (B) 4, 3, 2 (C) 4, 4, 4 (D) 3, 4, 3
Sol. (C)
Ex.11 How many molecules are present in one ml of water vapours at STP -
(A) 1.69 × 1019 (B) 2.69 × 10-19 (C) 1.69 × 10-19 (D) 2.69 × 1019
Sol. (D)
Q 22.4 litre water vapour at STP has
= 6.023 × 1023 molecules
1 × 10-3 litre water vapours at STP has
= × 10-3 = 2.69 × 10 19
Ex.12 How many years it would take to spend Avogadro's number of rupees at the rate of 1 million rupees in one second -
(A) 19.098 × 1019 years (B) 19.098 years
(C) 19.098 × 109 years (D) None of these
Sol. (C)
Q 106 rupees are spent in 1sec.
6.023 × 1023 rupees are spent in = sec
= years , = 19.098 × 109 year
Ex.13 An atom of an element weighs 6.644 × 10-23 g. Calculate g atoms of element in 40 kg-
(A) 10 gm atom (B) 100 gm atom (C) 1000 gm atom (D) 104 gm atom
Sol. (C)
Q weight of 1 atom of element
= 6.644 × 10-23 gm
weight of 'N' atoms of element
= 6.644 × 10-23 × 6.023 × 1023 = 40 gm
Q 40 gm of element has 1 gm atom.
40 x 103 gm of element has , = 103 gm atom.
Ex.14 Calculate the number of Cl- and Ca 2 ions in 222 g anhydrous CaCl2 -
(A) 2N ions of Ca 2 4 N ions of Cl- (B) 2N ions of Cl- & 4N ions of Ca 2
(C) 1N ions of Ca 2 & 1N ions of Cl- (D) None of these.
Sol. (A)
Q mol. wt. of CaCl2 = 111 g
Q 111 g CaCl2 has = N ions of Ca 2
222g of CaCl2 has
= 2N ions of Ca 2
Also Q 111 g CaCl2 has = 2N ions of Cl-
222 g CaCl2 has = ions of Cl-
= 4N ions of Cl- .
Ex.15 The density of O2 at NTP is 1.429g / litre. Calculate the standard molar volume of gas-
(A) 22.4 lit. (B) 11.2 lit (C) 33.6 lit (D) 5.6 lit.
Sol. (A)
Q 1.429 gm of O2 gas occupies volume = 1 litre.
32 gm of O2 gas occupies = ,= 22.4 litre/mol.
Ex.16 Which of the following will weigh maximum amount-
(A) 40 g iron (B) 1.2 g atom of N
(C) 1 × 1023 atoms of carbon (D) 1.12 litre of O2 at STP
Sol. (A)
(A) Mass of iron=40g (B) Mass of 1.2 g atom of N = 14 × 1.2 = 16.8 gm
(D) Mass of 1 × 1023 atoms of C = = 1.99 gm.
(D) Mass of 1.12 litre of O2 at STP = = 1.6 g
Ex.17 How many moles of potassium chlorate to be heated to produce 11.2 litre oxygen -
(A) mol (B) mol (C) mol (D) mol.
Sol. (B)
2 KClO3 → 2KCl 3O2
Mole for reaction 2 2 3
Q 3 × 22.4 litre O2 is formed by 2 mol KClO3
11.2 litre O2 is formed by = mol KClO3
Ex.18 Calculate the weight of lime (CaO) obtained by heating 200 kg of 95% pure lime stone (CaCO3).
(A) 104.4 kg (B) 105.4 kg (C) 212.8 kg (D) 106.4 kg
Sol. (D)
Q 100 kg impure sample has pure
CaCO3 = 95 kg
200 kg impure sample has pure CaCO3
= = 190 kg. CaCO3 → CaO CO2
Q 100 kg CaCO3 gives CaO = 56 kg.
190 kg CaCO3 gives CaO = = 106.4 kg.
Ex.19 The chloride of a metal has the formula MCl3. The formula of its phosphate will be-
(A) M2PO4 (B) MPO4 (C) M3PO4 (D) M(PO4)2
Sol. (B) AlCl3 as it is AlPO4
Ex.20 A silver coin weighing 11.34 g was dissolved in nitric acid. When sodium chloride was added to the solution all the silver (present as AgNO3) was precipitated as silver chloride. The weight of the precipitated silver chloride was 14.35 g. Calculate the percentage of silver in the coin
(A) 4.8 % (B) 95.2% (C) 90 % (D) 80%
Sol. (B)
Ag 2HNO3 → AgNO3 NO2 H2O
108
AgNO3 NaCl → AgCl NaNO3
143.5
143.5 gm of silver chloride would be precipitated by 108 g of silver.
or 14.35 g of silver chloride would be precipitated 10.8 g of silver.
Q 11.34 g of silver coin contain 10.8 g of pure silver.
100 g of silver coin contain × 100 = 95.2 %.
Solved Subjective
Ex.1 Calculate the following for 49 gm of H2SO4
(a) moles (b) Molecules (c) Total H atoms (d) Total O atoms
(e) Total electrons
Sol. Molecular wt of H2SO4 = 98
(a) moles = =
(b) Since 1 mole = 6.023 × 1023 molecules.
= 6.023 × 1023 × molecules = 3.011 × 1023 molecules
(c) 1 molecule of H2SO4 Contains 2 H atom
3.011 × 1023 of H2SO4 contain 2 × 3.011 × 1023 atoms = 6.023 × 1023 atoms
(d) 1 molecules of H2SO4 contains 4 O atoms
3.011 × 1023 molecular of H2SO4 contains = 4 × 3.011 × 1023 = 12.044 × 1023
(e) 1 molecule of H2SO4 contains 2H atoms 1 S atom 4 O atom
this means 1 molecule of H2SO4 Contains (2 16 4 × 8) e-
So 3.011 × 1023 molecules have 3.011 × 1023 × 50 electrons = 1.5055 × 1025 e-
Ex.2 Calculate the total ions & charge present in 4.2 gm of N-3
Sol. mole = = = 0.3
total no of ions = 0.3 × NA ions
total charge = 0.3 NA × 3 × 1.6 × 10-19
= 0.3 × 6.023 × 1023 × 3 × 1.6 × 10-19 , = 8.67 × 104 C Ans.
Ex.3 Find the total number of iron atom present in 224 amu iron.
Sol. Since 56 amu = 1 atom
therefore 224 amu = × 224 = 4 atom Ans.
Ex.4 A compound containing Ca, C, N and S was subjected to quantitative analysis and formula mass determination. A 0.25 g of this compound was mixed with Na2CO3 to convert all Ca into 0.16 g CaCO3. A 0.115 gm sample of compound was carried through a series of reactions until all its S was changed into SO42- and precipitated as 0.344 g of BaSO4. A 0.712 g sample was processed to liberated all of its N as NH3 and 0.155 g NH3 was obtained. The formula mass was found to be 156. Determine the empirical and molecular formula of the compound.
Sol. Moles of CaCO3 = = Moles of Ca
Wt of Ca = × 40
Mass % of Ca =
Similarly Mass % of S =
Similarly Mass % of N = = 17.9
⇒ Mass % of C = 15.48
Now :
Elements Ca S N C
Mass % 25.6 41 17.9 15.48
Mol ratio 0.64 1.28 1.28 1.29
Simple ratio 1 2 2 2
Empirical formula = CaC2N2S2,
Molecular formula wt = 156 , n × 156 = 156 ⇒ n = 1
Hence, molecular formula = CaC2N2S2
Ex.5 A polystyrne having formula Br3C6H3(C3 H8)n found to contain 10.46% of bromine by weight. Find the value of n. (At. wt. Br = 80)
Sol. Let the wt of compound is 100 gm & molecular wt is M
Then moles of compound =
Moles of Br = × 3
wt of Br = × 3 × 80 = 10.46
M = 2294.45 = 240 75 44 n , Hence n = 45 Ans.
Ex.6 A sample of clay was partially dried and then analysed to 50% silica and 7% water. The original clay contained 12% water. Find the percentage of silica in the original sample.
Sol. In the partially dried clay the total percentage of silica water = 57%. The rest of 43% must be some impurity. Therefore the ratio of wts. of silica to impurity = . This would be true in the original sample of silica.
The total percentage of silica impurity in the original sample is 88. If x is the percentage of silica, ; x = 47.3% Ans.
Ex.7 A mixture of CuSO4.5H2O and MgSO4. 7H2O was heated until all the water was driven-off. if 5.0 g of mixture gave 3 g of anhydrous salts, what was the percentage by mass of CuSO4.5H2O in the original mixture ?
Sol. Let the mixture contain x g CuSO4.5H2O
⇒ = 3 ⇒ x = 3.56
⇒ Mass percentage of CuSO4. 5H2O = = 71.25 % Ans.
Ex .8 367.5 gm KClO3 (M = 122.5) when heated, How many litre of oxygen gas is proudced at S.T.P.
Sol. KClO3 → KCl O2
Applying POAC on O, moles of O in KClO3 = moles of O in O2
3 × moles of KClO3 = 2 × moles of O2
3 × = 2 × n, n = ×
Volume of O2 gas at S.T.P = moles × 22.4
= = 9 × 11.2 = 100.8 lit Ans.
Ex.9 0.532 g of the chloroplatinate of a diacid base on ignition left 0.195 g of residue of Pt. Calculate molecular weight of the base (Pt = 195)
Sol. Suppose the diacid base is B.
B H2PtCl6→ BH2PtCl6 → Pt
diacid acid chloroplatinate
base 0.532 g 0.195 g
Since Pt atoms are conserved, applying POAC for Pt atoms,
moles of Pt atoms in BH2PtCl6 = moles of Pt atoms in the product
1 × moles of BH2PtCl6 = moles of Pt in the product
mol. wt. of BH2PtCl6 = 532
From the formula BH2PtCl6, we get
mol. wt. of B = mol. wt. of BH2PtCl6 - mol. wt. of H2PtCl6
= 532 - 410 = 122. Ans.
Ex.10 10 mL of a gaseous organic compound containing. C, H and O only was mixed with 100 mL of oxygen and exploded under conditions which allowed the water formed to condense. The volume of the gas after explosion was 90 mL. On treatment with potash solution, a further contraction of 20 mL in volume was observed. Given that the vapour density of the compound is 23, deduce the molecular formula. All volume measurements were carried out under the same conditions.
Sol. CxHyOz O2 → xCO2H2O
10 ml after explosion volume of gas = 90 ml
90 = volume of CO2 gas volume of unreacted O2
on treatment with KOH solution volume reduces by 20 ml. This means the volume of CO2 = 20 ml
the volume of unreacted O2 = 70 ml
volume of reacted O2 = 30 ml
V.D of compoud = 23
molecular wt 12x y 16z = 46 ...(1)
from equation we can write
, x - = 3
4x y - 2z = 12 ...(2)
& 10x = 20 ⇒ x = 2
from eq. (1) & (2) ; z = 1 & y = 6; Hence C2H6O Ans.
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