I. Multiple Choice Questions
1. Two students performed the same experiment separately and each one of
them recorded two readings of mass which are given below. Correct reading
of mass is 3.0 g. On the basis of given data, mark the correct option out of the
following statements.
Student Readings
(i) (ii)
A 3.01 2.99
B 3.05 2.95
(i) Results of both the students are neither accurate nor precise.
(ii) Results of student A are both precise and accurate.
(iii) Results of student B are neither precise nor accurate.
(iv) Results of student B are both precise and accurate.
2. A measured temperature on Fahrenheit scale is 200 °F. What will this reading
be on Celsius scale?
(i) 40 °C
(ii) 94 °C
(iii) 93.3 °C
(iv) 30 °C
3. What will be the molarity of a solution, which contains 5.85 g of NaCl(s) per
500 mL?
(i) 4 mol L–1
(ii) 20 mol L–1
(iii) 0.2 mol L–1
(iv) 2 mol L–1
4. If 500 mL of a 5M solution is diluted to 1500 mL, what will be the molarity of
the solution obtained?
(i) 1.5 M
(ii) 1.66 M
(iii) 0.017 M
(iv) 1.59 M
5. The number of atoms present in one mole of an element is equal to Avogadro
number. Which of the following element contains the greatest number of
atoms?
(i) 4g He
(ii) 46g Na
(iii) 0.40g Ca
(iv) 12g He
6. If the concentration of glucose (C6H12O6) in blood is 0.9 g L–1, what will be the
molarity of glucose in blood?
(i) 5 M
(ii) 50 M
(iii) 0.005 M
(iv) 0.5 M
7. What will be the molality of the solution containing 18.25 g of HCl gas in
500 g of water?
(i) 0.1 m
(ii) 1 M
(iii) 0.5 m
(iv) 1 m
8. One mole of any substance contains 6.022 × 1023 atoms/molecules. Number
of molecules of H2SO4 present in 100 mL of 0.02M H2SO4 solution is ______.
(i) 12.044 × 1020 molecules
(ii) 6.022 × 1023 molecules
(iii) 1 × 1023 molecules
(iv) 12.044 × 1023 molecules
9. What is the mass percent of carbon in carbon dioxide?
(i) 0.034%
(ii) 27.27%
(iii) 3.4%
(iv) 28.7%
10. The empirical formula and molecular mass of a compound are CH2O and
180 g respectively. What will be the molecular formula of the compound?
(i) C9H18O9
(ii) CH2O
(iii) C6
H12O6
(iv) C2H4O2
11. If the density of a solution is 3.12 g mL–1, the mass of 1.5 mL solution in
significant figures is _______.
(i) 4.7g
(ii) 4680 × 10–3g
(iii) 4.680g
(iv) 46.80g
12. Which of the following statements about a compound is incorrect?
(i) A molecule of a compound has atoms of different elements.
(ii) A compound cannot be separated into its constituent elements by
physical methods of separation.
(iii) A compound retains the physical properties of its constituent elements.
(iv) The ratio of atoms of different elements in a compound is fixed.
13. Which of the following statements is correct about the reaction given below:
4Fe(s) + 3O2(g) → 2Fe2O3(g)
(i) Total mass of iron and oxygen in reactants = total mass of iron and
oxygen in product therefore it follows law of conservation of mass.
(ii) Total mass of reactants = total mass of product; therefore, law of multiple
proportions is followed.
(iii) Amount of Fe2O3 can be increased by taking any one of the reactants
(iron or oxygen) in excess.
(iv) Amount of Fe2O3 produced will decrease if the amount of any one of the
reactants (iron or oxygen) is taken in excess.
14. Which of the following reactions is not correct according to the law of
conservation of mass.
(i) 2Mg(s) + O2(g) → 2MgO(s)
(ii) C3H8(g) + O2(g) → CO2(g) + H2O(g)
(iii) P4(s) + 5O2(g) → P4O10(s)
(iv) CH4(g) + 2O2(g) → CO2(g) + 2H2O (g)
15. Which of the following statements indicates that law of multiple proportion is
being followed.
(i) Sample of carbon dioxide taken from any source will always have carbon
and oxygen in the ratio 1:2.
(ii) Carbon forms two oxides namely CO2 and CO, where masses of oxygen
which combine with fixed mass of carbon are in the simple ratio 2:1.
(iii) When magnesium burns in oxygen, the amount of magnesium taken
for the reaction is equal to the amount of magnesium in magnesium
oxide formed.
(iv) At constant temperature and pressure 200 mL of hydrogen will combine
with 100 mL oxygen to produce 200 mL of water vapour.
II. Multiple Choice Questions
In the following questions two or more options may be correct.
16. One mole of oxygen gas at STP is equal to _______.
(i) 6.022 × 1023 molecules of oxygen
(ii) 6.022 × 1023 atoms of oxygen
(iii) 16 g of oxygen
(iv) 32 g of oxygen
17. Sulphuric acid reacts with sodium hydroxide as follows :
H2SO4 + 2NaOH → Na2SO4 + 2H2O
When 1L of 0.1M sulphuric acid solution is allowed to react with 1L of 0.1M
sodium hydroxide solution, the amount of sodium sulphate formed and its
molarity in the solution obtained is
(i) 0.1 mol L–1
(ii) 7.10 g
(iii) 0.025 mol L–1
(iv) 3.55 g
18. Which of the following pairs have the same number of atoms?
(i) 16 g of O2(g) and 4 g of H2(g)
(ii) 16 g of O2 and 44 g of CO2
(iii) 28 g of N2 and 32 g of O2
(iv) 12 g of C(s) and 23 g of Na(s)
19. Which of the following solutions have the same concentration?
(i) 20 g of NaOH in 200 mL of solution
(ii) 0.5 mol of KCl in 200 mL of solution
(iii) 40 g of NaOH in 100 mL of solution
(iv) 20 g of KOH in 200 mL of solution
20. 16 g of oxygen has same number of molecules as in
(i) 16 g of CO
(ii) 28 g of N2
(iii) 14 g of N2
(iv) 1.0 g of H2
21. Which of the following terms are unitless?
(i) Molality
(ii) Molarity
(iii) Mole fraction
(iv) Mass percent
22. One of the statements of Dalton’s atomic theory is given below:
“Compounds are formed when atoms of different elements combine in a fixed
ratio”
Which of the following laws is not related to this statement?
(i) Law of conservation of mass
(ii) Law of definite proportions
(iii) Law of multiple proportions
(iv) Avogadro law
III. Short Answer Type
3. What will be the mass of one atom of C-12 in grams?
24. How many significant figures should be present in the answer of the following
calculations?
2.5 1.25 3.5
2.01
× ×
25. What is the symbol for SI unit of mole? How is the mole defined?
26. What is the difference between molality and molarity?
27. Calculate the mass percent of calcium, phosphorus and oxygen in calcium
phosphate Ca3(PO4)
2.
28. 45.4 L of dinitrogen reacted with 22.7 L of dioxygen and 45.4 L of nitrous
oxide was formed. The reaction is given below:
2N2(g) + O2(g) → 2N2O(g)
Which law is being obeyed in this experiment? Write the statement of the law?
29. If two elements can combine to form more than one compound, the masses of
one element that combine with a fixed mass of the other element, are in whole
number ratio.
(a) Is this statement true?
(b) If yes, according to which law?
(c) Give one example related to this law.
30. Calculate the average atomic mass of hydrogen using the following data :
Isotope % Natural abundance Molar mass
1H 99.985 1
2H 0.015 2
31. Hydrogen gas is prepared in the laboratory by reacting dilute HCl with
granulated zinc. Following reaction takes place.
Zn + 2HCl → ZnCl2 + H2
Calculate the volume of hydrogen gas liberated at STP when 32.65 g of zinc
reacts with HCl. 1 mol of a gas occupies 22.7 L volume at STP; atomic mass of
Zn = 65.3 u.
32. The density of 3 molal solution of NaOH is 1.110 g mL–1. Calculate the molarity
of the solution.
33. Volume of a solution changes with change in temperature, then, will the molality
of the solution be affected by temperature? Give reason for your answer.
34. If 4 g of NaOH dissolves in 36 g of H2O, calculate the mole fraction of each
component in the solution. Also, determine the molarity of solution (specific
gravity of solution is 1g mL–1).
35. The reactant which is entirely consumed in reaction is known as limiting reagent.
In the reaction 2A + 4B → 3C + 4D, when 5 moles of A react with 6 moles of B,
then
(i) which is the limiting reagent?
(ii) calculate the amount of C formed?
IV. Matching Type
36. Match the following:
(i) 88 g of CO2 (a) 0.25 mol
(ii) 6.022 ×1023 molecules of H2O (b) 2 mol
(iii) 5.6 litres of O2 at STP (c) 1 mol
(iv) 96 g of O2 (d) 6.022 × 1023 molecules
(v) 1 mol of any gas (e) 3 mol
37. Match the following physical quantities with units
Physical quantity Unit
(i) Molarity (a) g mL–1
(ii) Mole fraction (b) mol
(iii) Mole (c) Pascal
(iv) Molality (d) Unitless
(v) Pressure (e) mol L–1
(vi) Luminous intensity (f) Candela
(vii) Density (g) mol kg–1
(viii) Mass (h) Nm–1
(i) kg
V. Assertion and Reason Type
In the following questions a statement of Assertion (A) followed by a
statement of Reason (R) is given. Choose the correct option out of the
choices given below each question.
38. Assertion (A) : The empirical mass of ethene is half of its molecular mass.
Reason (R) : The empirical formula represents the simplest whole number
ratio of various atoms present in a compound.
(i) Both A and R are true and R is the correct explanation of A.
(ii) A is true but R is false.
(iii) A is false but R is true.
(iv) Both A and R are false.
39. Assertion (A) : One atomic mass unit is defined as one twelfth of the mass of
one carbon-12 atom.
Reason (R) : Carbon-12 isotope is the most abundunt isotope of carbon
and has been chosen as standard.
(i) Both A and R are true and R is the correct explanation of A.
(ii) Both A and R are true but R is not the correct explanation of A.
(iii) A is true but R is false.
(iv) Both A and R are false.
40. Assertion (A) : Significant figures for 0.200 is 3 where as for 200 it is 1.
Reason (R) : Zero at the end or right of a number are significant provided
they are not on the right side of the decimal point.
(i) Both A and R are true and R is correct explanation of A.
(ii) Both A and R are true but R is not a correct explanation of A.
(iii) A is true but R is false.
(iv) Both A and R are false.
41. Assertion (A) : Combustion of 16 g of methane gives 18 g of water.
Reason (R) : In the combustion of methane, water is one of the products.
(i) Both A and R are true but R is not the correct explanation of A.
(ii) A is true but R is false.
(iii) A is false but R is true.
(iv) Both A and R are false.
VI. Long Answer Type
42. A vessel contains 1.6 g of dioxygen at STP (273.15K, 1 atm pressure). The
gas is now transferred to another vessel at constant temperature, where
pressure becomes half of the original pressure. Calculate
(i) volume of the new vessel.
(ii) number of molecules of dioxygen.
43. Calcium carbonate reacts with aqueous HCl to give CaCl2 and CO2 according
to the reaction given below:
CaCO3 (s) + 2HCl (aq) → CaCl2(aq) + CO2(g) + H2O(l)
What mass of CaCl2 will be formed when 250 mL of 0.76 M HCl reacts with
1000 g of CaCO3? Name the limiting reagent. Calculate the number of moles
of CaCl2 formed in the reaction.
44. Define the law of multiple proportions. Explain it with two examples. How
does this law point to the existance of atoms?
45. A box contains some identical red coloured balls, labelled as A, each weighing
2 grams. Another box contains identical blue coloured balls, labelled as B,
each weighing 5 grams. Consider the combinations AB, AB2, A2B and A2B3
and show that law of multiple proportions is applicable.
Answer Keys -
I. Multiple Choice Questions
1. (ii)
2. (iii)
3. (iii)
4. (ii)
5. (iv)
6. (iii)
7. (iv)
8. (i)
9. (ii)
10. (iii)
11. (i)
12. (iii)
13. (i)
14. (ii)
15. (ii)
II. Multiple Choice Questions
16. (i), (iv)
17. (ii), (iii)
18. (iii), (iv)
19. (i), (ii)
20. (iii), (iv)
21. (iii), (iv)
22. (i), (iv)
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