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Lakhmir Singh solutions for केमिस्ट्री [अंग्रेजी] कक्षा १० chapter 3 - Metals and Non-metals [Latest edition]

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Lakhmir Singh solutions for केमिस्ट्री [अंग्रेजी] कक्षा १० chapter 3 - Metals and Non-metals - Shaalaa.com
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Solutions for Chapter 3: Metals and Non-metals

Below listed, you can find solutions for Chapter 3 of CBSE, Karnataka Board Lakhmir Singh for केमिस्ट्री [अंग्रेजी] कक्षा १०.


Exercise 1Exercise 2Exercise 3Questions Based on Assertion-Reason
Exercise 1 [Pages 164 - 170]

Lakhmir Singh solutions for केमिस्ट्री [अंग्रेजी] कक्षा १० 3 Metals and Non-metals Exercise 1 [Pages 164 - 170]

1. (i)Page 164

Name one metal which exists in a liquid state at room temperature.

1. (ii)Page 164

Name one non-metal which exists in a liquid state at room temperature.

2. (i)Page 164

Why are metals called electropositive elements?

2. (ii)Page 164

Why are non-metals called electronegative elements?

3. (a)Page 164

Name the most abundant metal in the earth’s crust.

3. (b)Page 164

Name the most abundant non-metal in the earth’s crust.

4.Page 164

Name one metal which has a low melting point.

5.Page 164

Name the metal which is the poorest conductor of heat.

6.Page 164

State whether the following statement is true or false:

Non-metals react with dilute acids to produce a gas which burns with a ‘pop’ sound.

7.Page 164

From amongst the metals sodium, calcium, aluminium, copper and magnesium, name the metal:

  1. which reacts with water only on boiling, and
  2. another which does not react even with steam.
8.Page 164

What changes in the colour of iron nails and copper sulphate solution do you observe after keeping the iron nails dipped in copper sulphate solution for about 30 minutes?

9. (i)Page 164

What is aqua-regia?

9. (ii)Page 164

Name two special metals which are insoluble in common reagents but dissolve in aqua-regia.

10. (a)Page 164

Give the name and formula of two acidic oxides.

10. (b)Page 164

Give the name and formula of two basic oxides.

11.Page 164

What name is given to those metal oxides which show basic as well as acidic behaviour?

12.Page 164

Name two metals which form amphoteric oxides.

13.Page 164

A copper coin is kept immersed in a solution of silver nitrate for some time. What will happen to the coin and the colour of the solution?

14. (a)Page 164

Which property of copper and aluminium makes them suitable for making cooking utensils and boilers?

14. (b)Page 164

Which property of copper and aluminium makes them suitable for making electric wires?

15. (a)Page 164

Write the name and formula of a metal hydride.

15. (b)Page 164

Write the name and formula of a non-metal hydride.

16. (a)Page 164

Name the metal which has been placed at the bottom of the reactivity series.

16. (b)Page 164

Name the metal which has been placed at the top of the reactivity series.

16. (c)Page 164

Name the metal which has been placed just below copper in the reactivity series.

17.Page 164

Which of the two metals is more reactive?

Copper or silver

18. (a)Page 164

Name one metal which is stored in kerosene oil.

18. (b)Page 164

Name one non-metal which is stored under water.

19. (a)Page 164

Write an equation for the reaction of:

Sodium with oxygen

19. (b)Page 164

Write an equation for the reaction of:

Magnesium with oxygen

20. (a)Page 164

Name two metals which are used for making electric wires.

20. (b)Page 164

Name two metals which are used for making domestic utensils and factory equipment.

20. (c)Page 164

Name two metals which are used for making jewellery and to decorate sweets.

21.Page 164

Which metal foil is used for packing some of the medicine tablets?

22. (a)Page 164

Name the non-metal which is used:

To convert vegetable oil into vegetable ghee (solid fat).

22. (b)Page 164

Name the non-metal which is used:

As a rocket fuel (in liquid form).

22. (c)Page 165

Name the non-metal which is used:

To make electrodes of dry cells.

22. (d)Page 165

Name the non-metal which is used:

To preserve food materials.

22. (e)Page 165

Name the non-metal which is used:

In the vulcanisation of rubber.

23. (a)Page 165

Name one property which is characteristic of metals.

23. (b)Page 165

Name one property which is characteristic of non-metals.

24. (i)Page 165

What is meant by “brittleness”?

24. (ii)Page 165

Which type of elements usually show brittleness?

Metals or non-metals

25.Page 165

What will happen if a strip of zinc is immersed in a solution of copper sulphate?

26.Page 165

What will happen if a strip of copper is kept immersed in a solution of silver nitrate (AgNO3)?

27.Page 165

What changes in the colour of iron nails and copper sulphate solution do you observe after keeping the iron nails dipped in copper sulphate solution for about 30 minutes?

28.Page 165

How would you show that silver is chemically less reactive than copper?

29.Page 165

Give reasons for the following:

Blue colour of copper sulphate solution is destroyed when iron filings are added to it.

30.Page 165

Name a non-metal having a very high melting point.

31.Page 165

Which property of graphite is utilised in making electrodes?

32.Page 165

Name two non-metals which are both brittle and non-ductile.

33.Page 165

Explain why, the surface of some metals acquires a dull appearance when exposed to air for a long time.

34. (a)Page 165

Complete and balance the following equation:

\[\ce{Na + O2 ->}\]

34. (b)Page 165

Complete and balance the following equation:

\[\ce{Na2O + H2O ->}\]

34. (c)Page 165

Complete and balance the following equation:

\[\ce{Fe_{(s)} + H2O_{(g)} ->[Red heat]}\]

34. (d)Page 165

Complete and balance the following equation:

\[\ce{Cu(NO3)2_{(aq)} + Zn_{(s)} ->}\]

Fill in the following blanks with suitable words:

35. (a)Page 165

Magnesium liberates ______ gas on reacting with hot boiling water.

35. (b)Page 165

The white powder formed when magnesium ribbon burns in oxygen is of ______.

35. (c)Page 165

Ordinary aluminium strips are not attacked by water because of the presence of a layer of ______ on the surface of aluminium.

35. (d)Page 165

A metal having low melting point is ______ but a non-metal having very high melting point is ______.

35. (e)Page 165

Calcium is a ______ reactive metal than sodium.

Short Answer Type Questions

36. (a)Page 165

What is meant by saying that the metals are malleable and ductile? Explain with examples.

36. (b)Page 165

Name two metals which are both malleable and ductile.

36. (c)Page 165

Which property of iron metal is utilised in producing iron sheets required for making buckets?

36. (d)Page 165

Which property of copper metal is utilised in making thin wires?

37.Page 165

Name two metals which react violently with cold water. Write any three observations you would make when such a metal is dropped into water. How would you identify the gas evolved, if any, during the reaction?

38. (a)Page 165

With the help of examples, describe how metal oxides differ from non-metal oxides.

38. (b) (i)Page 165

Which of the following elements would yield an acidic oxide?

Na, S, C, K, H

38. (b) (ii)Page 165

Which of the following elements would yield a basic oxide?

Na, S, C, K, H

38. (b) (iii)Page 165

Which of the following elements would yield a neutral oxide?

Na, S, C, K, H

39. (a) (i)Page 165

What are amphoteric oxides?

39. (a) (ii)Page 165

Give two examples of amphoteric oxides.

39. (b)Page 165

Choose the acidic oxides, basic oxides and neutral oxides from the following:

Na2O; CO2; CO; SO2; MgO; N2O; H2O

39. (c)Page 165

Which of the following are amphoteric oxides:

MgO, ZnO, P2O3, Al2O3, NO2

40. (a)Page 166

What is the nature of the oxide SO2? What happens when it is dissolved in water? Write the chemical equation of the reaction involved.

40. (b)Page 166

What is the nature of the oxide Na2O? What happens when it is dissolved in water? Write the chemical equation of the reaction involved.

41. (a)Page 166

What type of oxides are formed when non-metals react with oxygen? Explain with an example.

41. (b)Page 166

What type of oxides are formed when metals combine with oxygen? Explain with the help of an example.

42. (a)Page 166

Explain why, metals usually do not liberate hydrogen gas with dilute nitric acid.

42. (b)Page 166

Name two metals which can, however, liberate hydrogen gas from very dilute nitric acid.

43. (a)Page 166

How do metals react with hydrogen? Explain with an example.

43. (b)Page 166

How do non-metals react with hydrogen? Explain with an example.

44. (a)Page 166

What happens when calcium reacts with chlorine? Write an equation for the reaction which takes place.

44. (b)Page 166

What happens when magnesium reacts with very dilute nitric acid? Write an equation for the reaction involved.

45. (a)Page 166

Arrange the following metals in order of their chemical reactivity, placing the most reactive metal first:

Magnesium, Copper, Iron, Sodium, Zinc, Lead, Calcium

45. (b)Page 166

What happens when a rod of zinc metal is dipped into a solution of copper sulphate? Give chemical equation of the reaction involved.

46.Page 166

A copper plate was dipped in AgNO3 solution. After certain time, silver from the solution was deposited on the copper plate. State the reason why it happened. Give the chemical equation of the reaction involved.

47. (i)Page 166

State five uses of metals.

47. (ii)Page 166

State five uses of non-metals.

48. (i)Page 166

State one use of the following metal:

Copper

48. (ii)Page 166

State one use of the following metal:

Aluminium

48. (iii)Page 166

State one use of the following metal:

Iron

48. (iv)Page 166

State one use of the following metal:

Silver

48. (v)Page 166

State one use of the following metal:

Gold

48. (vi)Page 166

State one use of the following metal:

Mercury

49. (a) (i)Page 166

State one use of the following non-metal:

Hydrogen

49. (a) (ii)Page 166

State one use of the following non-metal:

Carbon (as Graphite)

49. (a) (iii)Page 166

State one use of the following non-metal:

Nitrogen

49. (a) (iv)Page 166

State one use of the following non-metal:

Sulphur

49. (b)Page 166

Name the metal which is used in making thermometers.

50. (a)Page 166

Why does aluminium not react with water under ordinary conditions?

50. (b)Page 166

Name two metals which can displace hydrogen from dilute acids.

50. (c)Page 166

Name two metals which cannot displace hydrogen from dilute acids.

51. (a)Page 166

Why is sodium kept immersed in kerosene oil?

51. (b)Page 166

Why is white phosphorus kept immersed under water?

51. (c)Page 166

Can we keep sodium immersed under water? Why?

52. (a)Page 166

Describe the reaction of potassium with water. Write the equation of the reaction involved.

52. (b)Page 166

Write equations for the reactions of iron with steam. 

52. (c)Page 166

Which gas is produced when dilute hydrochloric acid is added to a reactive metal?

53. (a)Page 166

Give one example, with equation, of the displacement of hydrogen by a metal from an acid.

53. (b)Page 166

Name two metals (other than zinc and iron) which can displace hydrogen from dilute hydrochloric acid?

54. (a)Page 166

What is the action of water on sodium? Write the equation of the chemical reactions involved.

54. (b)Page 166

What is the action of water on magnesium? Write equations of the chemical reactions involved.

54. (c)Page 166

What is the action of water on aluminium? Write the equation of the chemical reaction involved.

55.Page 166

You are given samples of three metals - sodium, magnesium and copper. Suggest any two activities to arrange them in order of their decreasing reactivities.

56. (a)Page 166

Write one reaction in which aluminium oxide behaves as a basic oxide and another in which it behaves as an acidic oxide.

56. (b)Page 166

What special name is given to substances like aluminium oxide?

56. (c)Page 166

Name another metal oxide which behaves like aluminium oxide.

57. (a)Page 167

What happens when calcium reacts with water? Write the chemical equation of the reaction of calcium with water.

57. (b)Page 167

Write the chemical equation of the reaction which takes place when iron reacts with dilute sulphuric acid. What happens when the gas produced is ignited with a burning matchstick?

58.Page 167

You are given a dry cell, a torch bulb with holder, wires and crocodile clips. How would you use them to distinguish between samples of metals and non-metals?

59. (i)Page 167

State any five physical properties of metals.

59. (ii)Page 167

State any five physical properties of non-metals.

60. (a) (i)Page 167

Name two physical properties of sodium in which its behaviour is not as expected from its classification as a metal.

60. (a) (ii)Page 167

Name two physical properties of carbon in which its behaviour is not as expected from its classification as a non-metal.

60. (b)Page 167

Name two metals whose melting points are so low that they melt when held in the hand.

61.Page 167

Metals are said to be shiny. Why do metals generally appear to be dull? How can their brightness be restored?

Long Answer Type Questions

62. (a) (i)Page 167

What are metals?

62. (a) (ii)Page 167

Name five metals.

62. (b)Page 167

Name a metal which is so soft that it can be cut with a knife.

62. (c)Page 167

Name the metal which is the best conductor of heat and electricity.

62. (d)Page 167

What happens when a metal reacts with dilute hydrochloric acid? Explain with the help of an example.

62. (e) (i)Page 167

Write the equation for the reaction of:

Magnesium with dilute hydrochloric acid.

Name the products formed in the given case. Also indicate the physical states of all the substances involved.

62. (e) (ii)Page 167

Write the equation for the reaction of:

Aluminium with dilute hydrochloric acid.

Name the products formed in the given case. Also indicate the physical states of all the substances involved.

62. (e) (iii)Page 167

Write the equation for the reaction of:

Zinc with dilute hydrochloric acid.

Name the products formed in the given case. Also indicate the physical states of all the substances involved.

62. (e) (iv)Page 167

Write the equation for the reaction of:

Iron with dilute hydrochloric acid.

Name the products formed in the given case. Also indicate the physical states of all the substances involved.

63. (a) (i)Page 167

Define non-metals.

63. (a) (ii)Page 167

Give two examples of non-metals.

63. (b)Page 167

Name a non-metal which conducts electricity.

63. (c)Page 167

Name a non-metal having lustre (shining surface).

63. (d)Page 167

Name a non-metal which is extremely hard.

63. (e)Page 167

How do non-metals react with oxygen? Explain with an example. Give equation of the reaction involved. What is the nature of the product formed? How will you demonstrate it?

64. (a) (i)Page 167

What is meant by the reactivity series of metals?

64. (a) (ii)Page 167

Arrange the following metals in an increasing order of their reactivities towards water:

Zinc, Iron, Magnesium, Sodium

64. (b)Page 167

Hydrogen is not a metal but still it has been assigned a place in the reactivity series of metals. Why?

64. (c) (i)Page 167

Name one metal more reactive than hydrogen.

64. (c) (ii)Page 167

Name one metal less reactive than hydrogen.

64. (d) (i)Page 167

Name one metal which displaces copper from copper sulphate solution.

64. (d) (ii)Page 167

Name one metal which does not displace copper from copper sulphate solution.

64. (e) (i)Page 167

Name one metal which displaces silver from a silver nitrate solution.

64. (e) (ii)Page 167

Name one metal which does not displace silver from a silver nitrate solution.

65. (a)Page 167

State any three differences between the physical properties of metals and non-metals.

65. (b)Page 167

Differentiate between metals and non-metals on the basis of their chemical properties.

65. (c)Page 167

State three reasons (of which at least one must be chemical) for believing that sodium is a metal.

65. (d)Page 167

State three reasons (of which at least one must be chemical) for believing that sulphur is a nonmetal.

65. (e)Page 167

Which non-metal has been placed in the reactivity series of metals?

66.Page 168

The elements whose oxides can turn phenolphthalein solution pink are ______.

  • Na and K

  • K and C

  • Na and S

  • K and P

67.Page 168

“Is malleable and ductile”. This best describes:

  • a metal

  • a compound

  • a non-metal

  • a solution

68.Page 168

One of the following is not a neutral oxide. This is:

  • CO

  • H2O

  • N2O

  • Na2O

69.Page 168

A basic oxide will be formed by the element ______.

  • K

  • S

  • P

  • Kr

70.Page 168

An acidic oxide is produced by the element ______.

  • Na

  • C

  • Ca

  • H

71.Page 168

You are given a solution of AgNO3. Which of the following do you think cannot displace Ag from AgNO3 solution?

  • Magnesium

  • Zinc

  • Gold

  • Copper

72.Page 168

Out of aluminium, copper, calcium and tin, the most reactive metal is ______.

  • aluminium

  • copper

  • tin

  • calcium

73.Page 168

The least reactive metal among the following is:

  • sodium

  • silver

  • copper

  • lead

74.Page 168

An element X reacts with hydrogen, when heated, to form a covalent hydride H2X. If H2X has a smell of rotten eggs, the element X is likely to be ______.

  • carbon

  • sulphur

  • chlorine

  • phosphorus

75.Page 168

Out of the following oxides, the amphoteric oxide is:

  • Fe2O3

  • Al2O3

  • P2O5

  • N2O

76.Page 168

The metals which can produce amphoteric oxides are ______.

  • sodium and aluminium

  • zinc and potassium

  • calcium and sodium

  • aluminium and zinc

77.Page 168

An element X forms two oxides XO and XO2. The oxide XO is neutral but XO2 is acidic in nature. The element X is most likely to be ______.

  • sulphur

  • carbon

  • calcium

  • hydrogen

78.Page 168

The elements whose oxides can turn litmus solution blue are ______.

  • carbon and sulphur

  • sodium and carbon

  • potassium and magnesium

  • magnesium and sulphur

79.Page 168

The elements whose oxides can turn litmus solution red are ______.

  • lithium and sodium

  • copper and potassium

  • carbon and hydrogen

  • phosphorus and sulphur

80.Page 168

Zinc oxide is a metal oxide. Which of the following term best describes the nature of zinc oxide:

  • an acidic oxide

  • a basic oxide

  • an amphoteric oxide

  • a neutral oxide

81.Page 168

A metal less reactive and another metal more reactive than hydrogen are ______.

  • aluminium and lead

  • iron and magnesium

  • copper and tin

  • copper and mercury

82.Page 169

An element E reacts with water to form a solution which turns phenolphthalein solution pink. The element E is most likely to be ______.

  • S

  • Ca

  • C

  • Ag

83.Page 169

An element reacts with oxygen to give a compound with a high melting point. This compound is also soluble in water. The element is likely to be ______.

  • calcium

  • carbon

  • silicon

  • iron

84.Page 169

Which one of the following four metals would be displaced from the solution of its salt by the other three metals?

  • Zn

  • Ag

  • Cu

  • Mg

85.Page 169

An element is soft and can be cut with a knife. It is very reactive and cannot be kept open in the air. It reacts vigorously with water. The element is most likely to be ______.

  • Mg

  • S

  • P

  • Na

86.Page 169

Which of the following metal exists in the liquid state?

  • Na

  • Ag

  • Cr

  • Hg

87.Page 169

Which of the following non-metal is a liquid?

  • carbon

  • sulphur

  • bromine

  • iodine

88.Page 169

Which of the following pair of reactants can undergo a displacement reaction under appropriate conditions?

  • MgSO4 + Fe

  • ZnSO4 + Fe

  • MgSO4 + Pb

  • CuSO4 + Fe

Questions Based on High Order Thinking Skills (HOTS)/Case-Based Questions

89.Page 169

An element E forms an oxide E2O. An aqueous solution of E2O turns red litmus paper blue.

  1. What is the nature of the oxide E2O?
  2. State whether element E is a metal or a non-metal.
  3. Give one example of an element like E.
90.Page 169

Metal A burns in air, on heating, to form an oxide A2O3 whereas another metal B burns in air only on strong heating to form an oxide BO. The two oxides A2O3 and BO can react with hydrochloric acid as well as sodium hydroxide solution to form the corresponding salts and water.

  1. What is the nature of oxide A2O3?
  2. What is the nature of oxide BO?
  3. Name one metal like A.
  4. Name one metal like B.
91.Page 169

An element X forms two oxides XO and XO2. The oxide XO has no action on litmus solution but oxide XO2 turns litmus solution red.

  1. What is the nature of oxide XO?
  2. What is the nature of oxide ХО2?
  3. Would you call element X a metal or a non-metal? Give reason for your choice.
  4. Can you give an example of element like X?
92. (a)Page 169

State and explain the reaction of the following metal with a solution of copper sulphate:

Gold

92. (b)Page 169

State and explain the reaction of the following metal with a solution of copper sulphate:

Copper

92. (c)Page 169

State and explain the reaction of the following metal with a solution of copper sulphate:

Zinc

92. (d)Page 169

State and explain the reaction of the following metal with a solution of copper sulphate:

Mercury

93.Page 169
  1. Name two physical properties of carbon in which its behaviour is not as expected from its classification as a non-metal.
  2. State an important property in which these metal chloride and non-metal chloride differ.
  3. Why do they differ in this property?
94.Page 170

In a solution of lead acetate, a strip of metal M was dipped. After some time, lead from the solution was deposited on the metal strip. Which metal is more reactive, M or lead?

95.Page 170

\[\ce{CuSO4_{(aq)} + Fe_{(s)} -> FeSO4_{(aq)} + Cu_{(s)}}\]

\[\ce{FeSO4_{(aq)} + Zn_{(s)} -> ZnSO4_{(aq)} + Fe_{(s)}}\]

On the basis of the above reactions, indicate which is most reactive and which is least reactive metal out of zinc, copper and iron.

96.Page 170

Which of the following reactions will not occur? Why not?

  1. \[\ce{MgSO4_{(aq)} + Cu_{(s)} -> CuSO4_{(aq)} + Mg_{(s)}}\]
  2. \[\ce{CuSO4_{(aq)} + Fe_{(s)} -> FeSO4_{(aq)} + Cu_{(s)}}\]
  3. \[\ce{MgSO4_{(aq)} + Fe_{(s)} -> FeSO4_{(aq)} + Mg_{(s)}}\]
97.Page 170

In nature, metal A is found in a free state while metal B is found in the form of its compounds. Which of these two will be nearer to the top of the activity series of metals?

98.Page 170

If A, B, C, D, E, F, G, H, I, J and K represent metals in the decreasing order of their reactivity, which one of them is most likely to occur in a free state in nature?

99. (a) (i)Page 170

Name a metal for the given case:

It does not react with cold as well as hot water but reacts with steam.

99. (a) (ii)Page 170

Name a metal for the given case:

It does not react with any physical state of water.

99. (b)Page 170

When calcium metal is added to water, the gas evolved does not catch fire but the same gas evolved on adding sodium metal to water catches fire. Why is it so?

100.Page 170

A zinc plate was kept in a glass container having CuSO4 solution. On examining it was found that the blue colour of the solution is getting lighter and lighter. After a few days, when the zinc plate was taken out of the solution, a number of small holes were noticed in it. State the reason and give chemical equation of the reaction involved.

Exercise 2 [Pages 204 - 210]

Lakhmir Singh solutions for केमिस्ट्री [अंग्रेजी] कक्षा १० 3 Metals and Non-metals Exercise 2 [Pages 204 - 210]

Very Short Answer Type Questions

1. (a)Page 204

What is the name of the chemical bond formed?

By the sharing of electrons between two atoms.

1. (b)Page 204

What is the name of the chemical bond formed?

By the transfer of electrons from one atom to another.

2.Page 204

Name a carbon containing molecule which has two double bonds.

3.Page 204

What would be the electron-dot structure of carbon dioxide which has the formula CO2?

4. (a)Page 204

What type of chemical bond is formed between:

Potassium and bromine

4. (b)Page 204

What type of chemical bond is formed between:

Carbon and bromine

5. (a)Page 204

What do we call those particles which have more or less electrons than the normal atoms?

5. (b)Page 204

What do we call those particles which have more electrons than the normal atoms?

5. (c)Page 204

What do we call those particles which have less electrons than the normal atoms?

6. (a)Page 204

The atomic number of sodium is 11. What is the number of electrons in Na+?

6. (b)Page 204

The atomic number of chlorine is 17. What is the number of electrons in Cl?

7.Page 204

The atomic number of an element X is 8 and that of element Y is 12. Write down the symbols of the ions you would expect to be formed from their atoms.

8. (a) (i)Page 204

Write down the electronic configuration of the magnesium atom.

(At. No. of Mg = 12)

8. (a) (ii)Page 204

Write down the electronic configuration of the magnesium ion.

(At. No. of Mg = 12)

8. (b) (i)Page 204

Write down the electronic configuration of the sulphur atom.

(At. No. of S = 16)

8. (b) (ii)Page 204

Write down the electronic configuration of the sulphide ion.

(At. No. of S = 16)

9.Page 204

What type of chemical bonds are present in a solid compound which has a high melting point, does not conduct electricity in the solid state but becomes a good conductor in the molten state?

10.Page 204

State whether the following statement is true or false:

The aqueous solution of an ionic compound conducts electricity because there are plenty of free electrons in the solution.

11. (i)Page 204

What type of bond is present in hydrogen chloride?

11. (ii)Page 204

What type of bond is present in oxygen?

12. (i)Page 204

Write the electron-dot structure for the following molecule:

NaCl

12. (ii)Page 204

Write the electron-dot structure for the following molecule:

Cl2

13. (i)Page 204

What type of bonds are present in a water molecule?

13. (ii)Page 204

Draw the electron-dot structure of water (H2O).

14. (i)Page 204

What type of bond is present in methane (CH4)?

14. (ii)Page 204

What type of bond is present in sodium chloride (NaCl)?

15. (i)Page 204

State one major difference between covalent and ionic bonds.

15. (ii)Page 204

Give one example of a covalent compound.

15. (iii)Page 204

Give one example of an ionic compound.

16. (a) (i)Page 204

What type of bond is present in the following molecule?

H2

16. (a) (ii)Page 204

What type of bond is present in the following molecule?

CH4

16. (a) (iii)Page 204

What type of bond is present in the following molecule?

Cl2

16. (a) (iii)Page 204

What type of bond is present in the following molecule?

O2

16. (b) (i)Page 204

Draw the electron-dot structure of the H2 molecule.

16. (b) (ii)Page 204

Draw the electron-dot structure of the CH4 molecule.

16. (b) (iii)Page 204

Write the electron-dot structure for the following molecule:

Cl2

16. (b) (iv)Page 204

Draw the electron-dot structure of the O2 molecule.

17.Page 204

Which inert gas electron configuration do the Cl atoms in Cl2 molecule resemble? What is this electron configuration?

18.Page 204

Which of the following compounds are ionic and which are covalent?

Urea, Cane sugar, Hydrogen chloride, Sodium chloride, Ammonium chloride, Carbon tetrachloride, Ammonia, Alcohol, Magnesium chloride.

19. (i)Page 204

Give one example of the following:

A molecule containing a single covalent bond.

19. (ii)Page 205

Give one example of the following:

A molecule containing a double covalent bond.

19. (iii)Page 205

Give one example of the following:

A molecule containing a triple covalent bond.

19. (iv)Page 205

Give one example of the following:

A compound containing an ionic bond.

Fill in the blanks in the following sentences:

20. (i)Page 205

Two atoms of the same element combine to form a molecule. The bond between them is known as ______ bond.

20. (ii)Page 205

Two chlorine atoms combine to form a molecule. The bond between them is known as ______.

20. (iii)Page 205

In forming oxygen molecule, ______ electrons are shared by each atom of oxygen.

20. (iv)Page 205

In forming N2 molecule, ______ electrons are shared by each atom of nitrogen.

20. (v)Page 205

The number of single covalent bonds in C2H2 molecule are ______.

20. (vi)Page 205

Melting points and boiling points of ionic compounds are generally ______ than those of covalent compounds.

Short Answer Type Questions

21. (a) (1)Page 205

What is a covalent bond?

21. (a) (2) (i)Page 205

What type of bond exists in CCl4?

21. (a) (2) (ii)Page 205

What type of bond exists in CaCl2?

21. (b) (i)Page 205

What is an ionic bond?

21. (b) (ii)Page 205

What type of bond is present in oxygen?

22. (a)Page 205

What is an ion? Explain with examples.

22. (b) (i)Page 205

What is the nature of the charge on a cation?

22. (b) (ii)Page 205

What is the nature of the charge on an anion?

22. (c)Page 205

Name the cation and anion present in MgCl2. Also write their symbols.

23. (a)Page 205

What type of chemical bond is present in the chlorine molecule? Explain your answer.

23. (b)Page 205

Explain the formation of a chlorine molecule on the basis of electronic theory of valency.

24. (a) (i)Page 205

Giving one example, state what are ionic compounds.

24. (a) (ii)Page 205

Giving one example, state what are covalent compounds.

24. (b)Page 205

Compare the properties of ionic compounds and covalent compounds.

25. (a)Page 205

Explain why:

Covalent compounds have generally low melting points.

25. (b)Page 205

Why do ionic compounds have high melting points?

26. (a) (i)Page 205

Give two general properties of ionic compounds.

26. (a) (ii)Page 205

Give the characteristic properties of covalent compounds.

26. (b)Page 205

State one test by which sodium chloride can be distinguished from sugar.

27. (a)Page 205

Explain why, ionic compounds conduct electricity in solution whereas covalent compounds do not conduct electricity.

27. (b)Page 205

Which of the following will conduct electricity and which not?

MgCl2, CCl4, NaCl, CS2, Na2S

Give reasons for your choice.

28. (a) (i)Page 205

Name one ionic compound containing chlorine.

28. (a) (ii)Page 205

Name one covalent compound containing chlorine.

28. (b)Page 205

How will you find out which of the water soluble compound A or B is ionic?

29.Page 205

Explain why, ionic compounds conduct electricity in solution whereas covalent compounds do not conduct electricity.

30. (a)Page 205

Give the formula of the compound that would be formed by the combination of the following pair of elements:

Mg and N2

30. (b)Page 205

Give the formula of the compound that would be formed by the combination of the following pair of elements:

Li and O2

30. (c)Page 205

Give the formula of the compound that would be formed by the combination of the following pair of elements:

Al and Cl2

30. (d)Page 205

Give the formula of the compound that would be formed by the combination of the following pair of elements:

K and H

31. (a) (i)Page 205

What are noble gases?

31. (a) (ii)Page 205

What is the characteristic of the electronic configuration of noble gases?

31. (b)Page 205

What is the cause of chemical bonding (or chemical combination) of atoms of elements?

32. (i) (a)Page 205

Write electron-dot structures for magnesium.

32. (i) (b)Page 205

Write the electron-dot structure for oxygen.

32. (ii)Page 205

Show the formation of MgO by the transfer of electrons.

32. (iii)Page 205

What are the ions present in the MgO compound?

33.Page 206

Draw the electron-dot structure of a hydrogen chloride molecule:

  1. Which inert gas does the H atom in HCl resemble in electron arrangement?
  2. Which inert gas does the Cl atom in HCl resemble in electron arrangement?
34. (i)Page 206

What type of bonding would you expect between the following pair of elements?

Calcium and Oxygen

34. (ii)Page 206

What type of bonding would you expect between the following pair of elements?

Carbon and Chlorine

34. (iii)Page 206

What type of bonding would you expect between the following pair of elements?

Hydrogen and Chlorine

35.Page 206

Describe how sodium and chlorine atoms are changed into ions when they react with each other to form sodium chloride, NaCl. What is the name given to this type of bonding?

(At. No of sodium = 11; At. No. of chlorine = 17)

36. (i)Page 206

What is the difference between:

A cation and an anion.

36. (ii)Page 206

How are cations formed?

36. (iii)Page 206

How are anions formed?

36. (iv)Page 206

Give the name and symbol of one cation.

36. (v)Page 206

Give the name and symbol of one anion.

37.Page 206

Using electron-dot diagrams which show only the outermost shell electrons, show how a molecule of nitrogen, N2, is formed from two nitrogen atoms. What name is given to this type of bonding?

(Atomic number of nitrogen is 7)

38. (i)Page 206

Draw the electron-dot structure of the following compound and state the type of bonding in the given case:

CO2

38. (ii)Page 206

Draw the electron-dot structure of the following compound and state the type of bonding in the given case:

MgO

38. (iii)Page 206

Draw the electron-dot structure of the following compound and state the type of bonding in the given case:

H2O

38. (iv)Page 206

Draw the electron-dot structure of the following compound and state the type of bonding in the given case:

HCl

38. (v)Page 206

Draw the electron-dot structure of the following compound and state the type of bonding in the given case:

MgCl2

39.Page 206

Using electron-dot diagrams which show only the outermost shell electrons, show how a molecule of oxygen, O2, is formed from two oxygen atoms. What name is given to this type of bonding?

(At. No. of oxygen = 8)

40. (i)Page 206

Draw the electron-dot structure of the following compound and state the type of bonding in the given case:

KCl

40. (ii)Page 206

Draw the electron-dot structure of the following compound and state the type of bonding in the given case:

NH3

40. (iii)Page 206

Draw the electron-dot structure of the following compound and state the type of bonding in the given case:

CaO

40. (iv)Page 206

Draw the electron-dot structure of the following compound and state the type of bonding in the given case:

N2

40. (v)Page 206

Draw the electron-dot structure of the following compound and state the type of bonding in the given case:

CaCl2

41.Page 206

Explain why, a salt which does not conduct electricity in the solid state becomes a good conductor in molten state.

Long Answer Type Questions

42. (a) (i)Page 206

Write down the electronic configuration of the sodium atom.

42. (a) (ii)Page 206

Write down the electronic configuration of the chlorine atom.

42. (b) (i)Page 206

How many electrons are there in the outermost shell of a sodium atom?

42. (b) (ii)Page 206

How many electrons are there in the outermost shell of a chlorine atom?

42. (c)Page 206

Show the formation of NaCl from sodium and chlorine atoms by the transfer of electron(s).

42. (d)Page 206

Why has sodium chloride a high melting point?

42. (e)Page 206

Name the anode and the cathode used in the electrolytic refining of impure copper metal.

43. (a) (i)Page 206

Write the electron arrangement in a magnesium atom.

43. (a) (ii)Page 206

Write the electron arrangement in an oxygen atom.

43. (b) (i)Page 206

How many electrons are there in the valence shell of a magnesium atom?

43. (b) (ii)Page 206

How many electrons are there in the valence shell of an oxygen atom?

43. (c)Page 206

Show on a diagram the transfer of electrons between the atoms in the formation of MgO.

43. (d)Page 206

Name the solvent in which ionic compounds are generally soluble.

43. (e)Page 206

Why are aqueous solutions of ionic compounds able to conduct electricity?

44. (a) (i)Page 206

What is the electronic configuration of a sodium atom?

44. (a) (ii)Page 206

What is the electronic configuration of an oxygen atom?

44. (b) (i)Page 206

What is the number of outermost electrons in a sodium atom?

44. (b) (ii)Page 206

What is the number of outermost electrons in an oxygen atom?

44. (c)Page 206

Show the formation of Na2O by the transfer of electrons between the combining atoms.

44. (d)Page 206

Why are ionic compounds usually hard?

44. (e)Page 169

How is it that ionic compounds in the solid state do not conduct electricity but they do so when in molten state?

45. (a) (i)Page 207

Write the electron arrangement in a magnesium atom.

45. (a) (ii)Page 207

Write down the electron arrangement in a chlorine atom.

45. (b) (i)Page 207

How many electrons are there in the valence shell of a magnesium atom?

45. (b) (ii)Page 207

How many electrons are there in the valence shell of a chlorine atom?

45. (c)Page 207

Show the formation of magnesium chloride from magnesium and chlorine by the transfer of electrons.

45. (d)Page 207

State whether magnesium chloride will conduct electricity or not. Give reason for your answer.

45. (e)Page 207

Why are covalent compounds generally poor conductors of electricity?

Multiple Choice Questions (MCQS)

46.Page 207

The atomic number of an element X is 19. The number of electrons in its ion X+ will be ______.

  • 18

  • 19

  • 20

  • 21

47.Page 207

The atomic number of an element Y is 17. The number of electrons in its ion Y will be ______.

  • 17

  • 18

  • 19

  • 20

48.Page 207

The atomic numbers of four elements A, B, C and D are 6, 8, 10 and 12 respectively. The two elements which can react to form ionic bonds (or ionic compound) are ______.

  • A and D

  • B and С

  • A and С

  • B and D

49.Page 207

The atomic numbers of four elements P, Q, R and S are 6, 10, 12 and 17 respectively. Which two elements can combine to form a covalent compound?

  • P and R

  • Q and S

  • P and S

  • R and S

50.Page 207

The solution of one of the following compounds will not conduct electricity. This compound is:

  • NaCl

  • CCl4

  • MgCl2

  • CaCl2

51.Page 207

The electronic configurations of three elements X, Y and Z are:

X: 2

Y: 2, 8, 7

Z: 2, 8, 2

Which of the following is correct regarding these elements?

  • X is a metal.

  • Y is a metal.

  • Z is a non-metal.

  • Y is a non-metal and Z is a metal.

52.Page 207

Which one of the following property is generally not exhibited by ionic compounds?

  • solubility in water.

  • electrical conductivity in solid state.

  • high melting and boiling points.

  • electrical conductivity in molten state.

53.Page 207

The electrons present in the valence shell of a noble gas atom can be ______.

  • 8 only

  • 2 only

  • 8 or 2

  • 8 or 4

54.Page 207

The atomic number of an element X is 16. The symbol of ion formed by an atom of this element will be ______.

  • X2+

  • X3+

  • X2−

  • X

55.Page 207

The number of protons in the nucleus of one atom of an element Y is 5. The symbol of ion formed by an atom of this element will be ______.

  • Y3−

  • Y2+

  • Y2−

  • Y3+

56.Page 207

Out of KCl, HCl, CCl4 and NaCl, the compounds which are not ionic are ______.

  • KCl and HCl

  • HCl and CCl4

  • CCl4 and NaCl

  • KCl and CCl4

57.Page 207

Element X reacts with element Y to form a compound Z. During the formation of compound Z, atoms of X lose one electron each whereas atoms of Y gain one electron each. Which of the following property is not shown by compound Z?

  • high melting point

  • low melting point

  • occurrence as solid

  • conduction of electricity in molten state

58.Page 208

One of the following compounds is not ionic in nature. This compound is:

  • Lithium chloride

  • Ammonium chloride

  • Calcium chloride

  • Carbon tetrachloride

59.Page 208

The rechargeable battery used in a mobile phone hand set is usually ______.

  • lead ion battery

  • sodium ion battery

  • hydrogen ion battery

  • lithium ion battery

60.Page 208

The number of protons in one atom of an element X is 8. What will be the number of electrons in its ion X2−?

  • 8

  • 9

  • 10

  • 11

61.Page 208

If the number of protons in one atom of an element Y is 20, then the number of electrons in its ion Y2+ will be ______.

  • 20

  • 19

  • 18

  • 16

62.Page 208

The noble gas having only two electrons in its valence shell is ______.

  • Ar

  • Ne

  • He

  • Kr

63.Page 208

A covalent molecule having a double bond between its atoms is ______.

  • Hydrogen

  • Oxygen

  • water

  • ammonia

64.Page 209

The molecules having triple bond in them are ______.

  • oxygen and ethyne

  • carbon dioxide and ammonia

  • methane and ethene

  • nitrogen and ethyne

65.Page 208

One of the following contains a double bond as well as single bonds. This is:

  • CO2

  • O2

  • C2H4

  • C2H2

66.Page 208

Which of the following has a triple bond as well as single bonds?

  • ethene

  • methane

  • ethyne

  • nitrogen

Questions Based on High Order Thinking Skills (HOTS)/Case Based Questions

67.Page 208

Two non-metals combine with each other by the sharing of electrons to form a compound X.

  1. What type of chemical bond is present in X?
  2. State whether X will have a high melting point or low melting point.
  3. Will it be a good conductor of electricity or not?
  4. Will it dissolve in an organic solvent or not?
68.Page 208

A metal combines with a non-metal by the transfer of electrons to form a compound Y.

  1. State the type of bonds in Y.
  2. What can you say about its melting point and boiling point?
  3. Will it be a good conductor of electricity?
  4. Will it dissolve in an organic solvent or not?
69.Page 208

The electronic configurations of three elements X, Y and Z are as follows:

X 2, 4
Y 2, 7
Z 2, 1
  1. Which two elements will combine to form an ionic compound?
  2. Which two elements will react to form a covalent compound?

Give reasons for your choice.

70.Page 209

An element A has 4 valence electrons in its atom whereas element B has only one valence electron in its atom. The compound formed by A and B does not conduct electricity. What is the nature of chemical bond in the compound formed? Give its electron-dot structure.

71.Page 209

In the formation of a compound XY2 atom X gives one electron to each Y atom. What is the nature of bond in XY2? Give two properties of XY2.

72.Page 209

An element ‘A’ has two electrons in the outermost shell of its atom and combines with an element ‘B’ having seven electrons in the outermost shell, forming the compound AB2. The compound when dissolved in water conducts electric current. Giving reasons, state the nature of chemical bond in the compound.

73.Page 209

The electronic configurations of two elements A and B are given below:

A 2, 6
B 2, 8, 1
  1. What type of chemical bond is formed between the two atoms of A?
  2. What type of chemical bond will be formed between the atoms of A and B?
74.Page 209

Four elements A, B, C and D have the following electron arrangements in their atoms:

A 2, 8, 6
B 2, 8, 8
C 2, 8, 8, 1
D 2, 7
  1. What type of bond is formed when element C combines with element D?
  2. Which element is an inert gas?
  3. What will be the formula of the compound between A and C?
75.Page 209

An element X of atomic number 12 combines with an element Y of atomic number 17 to form a compound XY2. State the nature of chemical bond in XY2 and show how the electron configurations of X and Y change in the formation of this compound.

76.Page 209

The electronic configurations of three elements A, B and C are as follows:

A 2, 8 1
B 2, 8, 7
C 2, 4
  1. Which of these elements is a metal?
  2. Which of these elements are non-metals?
  3. Which two elements will combine to form an ionic bond?
  4. Which two elements will combine to form a covalent bond?
  5. Which element will form an anion of valency 1?
77.Page 209

The electronic configurations of four particles A, B, C and D are given below:

A 2, 8, 8
B 2, 8, 2
C 2, 6
D 2, 8

Which electronic configuration represents:

  1. magnesium atom?
  2. oxygen atom?
  3. sodium ion?
  4. chloride ion?
78.Page 209

The atomic number of an element X is 12.

  1. What must an atom of X do to attain the nearest inert gas electron configuration?
  2. Which inert gas is nearest to X?
79.Page 209

The atomic number of an element Y is 16.

  1. What must an atom of Y do to achieve the nearest inert gas electron arrangement?
  2. Which inert gas is nearest to Y?
80.Page 210

You can buy solid air-freshners in shops. Do you think these substances are ionic or covalent? Why?

81.Page 210

Give the formulae of the chlorides of the elements X and Y having atomic numbers of 3 and 6 respectively. Will the properties of the two chlorides be similar or different? Explain your answer.

Exercise 3 [Pages 230 - 236]

Lakhmir Singh solutions for केमिस्ट्री [अंग्रेजी] कक्षा १० 3 Metals and Non-metals Exercise 3 [Pages 230 - 236]

1.Page 230

A zinc ore gave CO2 on treatment with a dilute acid. Identify the ore and write its chemical formula.

2.Page 230

What chemical process is used for obtaining a metal from its oxide?

3.Page 230

Write two methods of preventing the rusting of iron.

4.Page 230

What is meant by galvanisation? Why is it done?

5.Page 230

Name the metal which is used for galvanising iron.

6.Page 230

Explain why, iron sheets are coated with zinc.

7.Page 230

Why do we apply paint on iron articles?

8.Page 230

Give a reasons for the following:

Carbonate and sulphide ores are usually converted into oxides during the process of extraction of metals.

9.Page 230

Name a reducing agent that may be used to obtain manganese from manganese dioxide.

10.Page 230

Name an alloy of lead and tin.

11.Page 230

Give the composition of an alloy called solder. State its one property and one use.

12.Page 230

What is an amalgam?

13.Page 230

How many carats is pure gold? Why is pure gold not suitable for making ornaments?

14.Page 230

Name one method for the refining of metals.

15.Page 230

State two conditions for the rusting of iron.

16.Page 230

In one method of rust prevention, the iron is not coated with anything. Which is this method?

17.Page 230

Name two alloys of iron. What elements are present in these alloys?

18.Page 230

Give reasons:

Platinum, gold and silver are used to make jewellery.

19.Page 230

Which metal becomes black in the presence of hydrogen sulphide gas in air?

20.Page 230

Name the gas in air which tarnishes silver articles slowly.

21.Page 230

Silver metal does not combine easily with oxygen but silver jewellery tarnishes after some time. How?

22. (i)Page 230

Write the composition of the alloy called bronze.

22. (ii)Page 230

Give two uses of bronze.

23.Page 231

Why does a new aluminium vessel lose shine so soon after use?

24.Page 231

Why do gold ornaments look new even after several years of use?

25.Page 231

Name two metals which are highly resistant to corrosion.

26.Page 231

Which property of ‘solder’ alloy makes it suitable for welding electrical wires?

27.Page 231

Explain why, carbon cannot reduce oxides of sodium or magnesium.

28.Page 231

Why are the metals like Na, K, Ca and Mg never found in their free state in nature?

29. (a)Page 231

Name one metal each which is extracted by:

Reduction with carbon.

29. (b)Page 231

Name one metal each which is extracted by:

Electrolytic reduction.

29. (c)Page 231

Name one metal each which is extracted by:

Reduction with aluminium.

29. (d)Page 231

Name one metal each which is extracted by:

Reduction with heat alone.

Fill in the following blanks with suitable words:

30. (a)Page 231

The corrosion of iron is called ______.

30. (b)Page 231

______ and ______ are necessary for the rusting of iron.

30. (c)Page 231

The process of depositing a thin layer of zinc on iron articles is called ______.

30. (d)Page 231

Tiffin boxes are electroplated with ______ but car bumpers are electroplated with ______ to protect them from rusting.

30. (e)Page 231

The corrosion of copper produces a ______ coating of basic copper carbonate on its surface.

30. (f)Page 231

Brass is an alloy of copper and ______.

30. (g)Page 231

Bronze is an alloy of copper and ______.

30. (h)Page 231

The non-metal present in steel is ______.

30. (i)Page 231

The alloy in which one of the metals is mercury is called an ______.

30. (j)Page 231

The electrical conductivity and melting point of an alloy is ______ than that of pure metals.

30. (k)Page 231

The rocky material found with ores is called ______.

Short Answer Type Questions

31.Page 231

How is manganese extracted from manganese dioxide, MnO2? Explain with the help of an equation.

32. (i)Page 231

What is a thermite reaction? Explain with the help of an equation.

32. (ii)Page 231

State one use of a thermite reaction.

33.Page 231

Which one of the methods given in column I is applied for the extraction of each of the metals given in column II:

Column I Column II
Electrolytic reduction Aluminium
Reduction with Carbon Zinc
Reduction with Aluminium Sodium
  Iron
  Manganese
  Tin
34. (a)Page 231

Give reasons why copper is used to make hot water tanks and not steel (an alloy of iron).

34.2Page 192

Explain why, the surface of some metals acquires a dull appearance when exposed to air for a long time.

35. (a)Page 231

Why does aluminium not corrode right through?

35. (b)Page 231

What is meant by ‘anodising’? Why is it done?

36. (a)Page 231

Why is an iron grill painted frequently?

36. (b)Page 231

Explain why, though aluminium is more reactive than iron, yet there is less corrosion of aluminium when both are exposed to air.

37. (a)Page 231

Name the method by which aluminium metal is extracted.

37. (b)Page 231

Give the name and chemical formula of one ore of copper.

37. (c)Page 231

How is zinc extracted from its carbonate ore (calamine)? Explain with equations.

38. (a)Page 231

Name two metals which occur in nature in free state as well as in combined state.

38. (b)Page 232

Name one ore of manganese. Which compound of manganese is present in this ore? Also write its chemical formula.

38. (c)Page 232

A zinc ore on heating in air forms sulphur dioxide. Describe briefly any two stages involved in the conversion of this concentrated ore into zinc metal.

39.Page 232

How does the method used for extracting a metal from its ore depend on the metal’s position in the reactivity series? Explain with examples.

40.Page 232

Explain giving one example, how highly reactive metals (which are high up in the reactivity series) are extracted.

41.Page 232

Describe with one example, how moderately reactive metals (which are in the middle of reactivity series) are extracted.

42.Page 232

How are the less reactive metals (which are quite low in the reactivity series) extracted? Explain with the help of an example.

43. (i)Page 232

What is meant by refining of a metal?

43. (ii)Page 232

Name the most widely used method for the refining of impure metals obtained by various reduction processes. Describe this method with the help of a labelled diagram by taking the example of any metal.

44. (a) (i)Page 232

Define the term mineral.

44. (a) (ii)Page 232

Define the term ore.

44. (a) (iii)Page 232

Define the term gangue.

44. (b)Page 232

What is meant by the ‘concentration of ore’?

44. (c)Page 232

Name one ore of copper (other than cuprite). Which compound of copper is present in this ore? Also, write its chemical formula.

45.Page 232

Explain how, a reduction reaction of aluminium can be used for welding cracked machine parts of iron. Write a chemical equation for the reaction involved.

46. (a)Page 232

What is corrosion?

46. (b)Page 232

Name any two metals which do not corrode easily.

46. (c)Page 232

What is the corrosion of iron known as?

46. (d)Page 232

Give reasons.

Aluminium is a highly reactive metal, yet it is used to make utensils for cooking.

47. (i)Page 232

What is meant by ‘rusting of iron’?

47. (ii)Page 232

With the help of labelled diagrams, describe an activity to find out the conditions under which iron rusts.

48. (a) (i)Page 232

What is an alloy?

48. (a) (ii)Page 232

How is an alloy made?

48. (b) (i)Page 232

What elements are present in steel?

48. (b) (ii)Page 232

Give one use of the following substance:

Brass

48. (b) (ii)Page 232

How are the properties of steel different from those of pure iron?

48. (c) (i)Page 232

Give the constituents of brass.

49. (a)Page 232

Name two metals which resist corrosion due to the formation of a thin, hard and impervious layer of oxide on their surface.

49. (b)Page 232

Name five methods of preventing rusting of iron.

49. (c)Page 232

What are the constituents of stainless steel?

49. (c) (ii)Page 232

What are the special properties of stainless steel?

50. (a)Page 232

Name an alloy of copper. State its chemical composition and any one use.

50. (b)Page 232

Explain why, when a copper object remains in damp air for a considerable time, a green coating is formed on its surface. What is this process known as?

51. (a)Page 232

Explain how painting of an iron gate prevents it from rusting.

51. (b)Page 232

How does the electrical conductivity of copper alloys, brass and bronze, differ from that of pure copper?

51. (c) (i)Page 232

What is meant by 22 carat gold?

51. (c) (ii)Page 232

Name the metals which are usually alloyed with gold to make it harder.

52. (a)Page 232

Explain giving equation, what happens when:

ZnCO3 is heated in the absence of air?

52. (b)Page 232

Explain giving equation, what happens when:

A mixture of Cu2O and Cu2S is heated.

53. (a)Page 232

For the reduction of a metal oxide, suggest a reducing agent other than carbon.

53. (b)Page 232

Explain why, an aqueous solution of sodium chloride is not used for the electrolytic extraction of sodium metal.

54. (i)Page 233

How are metals refined by the electrolytic process?

54. (ii)Page 233

Describe the electrolytic refining of copper with the help of a neat labelled diagram.

55. (a)Page 233

Name the chemical compound which is electrolysed in molten state to obtain aluminium metal. Which gas is evolved during this process?

55. (b)Page 233

Name the chemical compound which is electrolysed in molten state to obtain sodium metal. Which gas is produced in this process?

55. (c)Page 233

Name the gas produced when calamine ore is calcined.

55. (d)Page 233

Name the gas evolved when cinnabar ore is roasted.

56. (a)Page 233

Name two metals which are found in nature mainly in the free state (as metallic elements).

56. (b)Page 233

Name two metals which are always found in combined state.

56. (c)Page 233

What iron compound is present in haematite ore? Also write its chemical formula.

Long Answer Type Questions

57. (a)Page 233

What is the difference between a mineral and an ore?

57. (b)Page 233

Which metal is extracted from cinnabar ore?

57. (c)Page 233

Name one ore of sodium. Name the sodium compound present in this ore and write its chemical formula.

57. (d)Page 233

How is sodium metal extracted? Explain with the help of equation of the reaction involved.

57. (e)Page 233

Name three other metals which are extracted in a manner similar to sodium.

58. (a)Page 233

Name the metal which is extracted from haematite ore.

58. (b)Page 233

Name one ore of aluminium. Name the aluminium compound present in this ore and write its chemical formula.

58. (c)Page 233

How is aluminium metal extracted? Explain with the help of an equation.

58. (d)Page 233

Name the electrode at which aluminium metal is produced.

58. (e)Page 233

Which gas is produced during the extraction of aluminium? At which electrode is this gas produced?

59. (a)Page 233

Which metal is extracted from bauxite ore?

59. (b)Page 233

Give the name of one ore of iron. Which iron compound is present in this ore? Write its chemical formula.

59. (c)Page 233

Describe the extraction of zinc metal from its sulphide ore (zinc blende). Write equations of the reactions involved.

59. (d)Page 233

Explain why, the galvanised iron article is protected against rusting even if the zinc layer is broken.

59. (e)Page 233

Name a common metal which is highly resistant to corrosion.

60. (a)Page 233

Name the metal which is extracted from the ore called ‘rock salt’.

60. (b)Page 233

Name two ores of zinc. Write the names of the chemical compounds present in them and give their chemical formulae.

60. (c)Page 233

Explain how, mercury is extracted from its sulphide ore (cinnabar). Give equations of the reactions involved.

60. (d)Page 233

In the electrolytic refining of a metal M, what would you take as anode, cathode and electrolyte?

60. (e)Page 233

Name any five metals which are purified by electrolytic refining method.

61. (a)Page 233

Which metal is extracted from calamine ore?

61. (b)Page 233

Name one ore of mercury. Which mercury compound is present in this ore? Write its chemical formula.

61. (c)Page 233

How is copper extracted from its sulphide ore (copper glance), Cu2S? Explain with equations of the reactions involved.

61. (d) (i)Page 233

What is an alloy?

61. (d) (ii)Page 233

Give two examples of alloys.

61. (e)Page 233

How are the properties of an alloy different from those of the constitutent elements?

Multiple Choice Questions (MCQs)

62.Page 234

An ore of manganese metal is ______.

  • bauxite

  • haematite

  • cuprite

  • pyrolusite

63.Page 234

Which of the following is an iron ore?

  • cinnabar

  • calamine

  • haematite

  • rock salt

64.Page 234

The metal which can be extracted from the bauxite ore is ______.

  • Na

  • Mn

  • Al

  • Hg

65.Page 234

The two metals which can be extracted just by heating their sulphides in air are ______.

  • sodium and copper

  • copper and aluminium

  • potassium and zinc

  • mercury and copper

66.Page 234

A common metal which is highly resistant to corrosion is ______.

  • iron

  • copper

  • aluminium

  • magnesium

67.Page 234

An important ore of zinc metal is ______.

  • calamine

  • cuprite

  • pyrolusite

  • haematite

68.Page 234

The major ore of aluminium is known as ______.

  • cinnabar

  • calamine

  • bauxite

  • pyrolusite

69.Page 234

The two metals which are extracted by means of electrolytic reduction of their molten salts are ______.

  • magnesium and manganese

  • iron and aluminium

  • zinc and magnesium

  • magnesium and aluminium

70.Page 234

In stainless steel alloy, iron metal is mixed with ______.

  • Cu and Cr

  • Cr and Ni

  • Cr and Sn

  • Cu and Ni

71.Page 234

If copper is kept exposed to damp air for a considerable time, it gets a green coating on its surface. This is due to the formation of ______.

  • hydrated copper sulphate

  • copper oxide

  • basic copper carbonate

  • copper nitrate

72.Page 234

Which of the following alloys contains mercury as one of the constituents?

  • stainless steel

  • solder

  • duralumin

  • zinc amalgam

73.Page 234

Which of the following is an ore of mercury metal?

  • rock salt

  • cinnabar

  • calamine

  • haematite

74.Page 234

Calamine ore can be used to extract one of the following metals. This metal is:

  • copper

  • mercury

  • aluminium

  • zinc

75.Page 234

Which of the following pair of metals exists in their native state in nature?

  • Ag and Hg

  • Ag and Zn

  • Au and Hg

  • Au and Ag

76.Page 234

Which of the following reactants are used to carry out the thermite reaction required for welding the broken railway tracks?

  • Al2O3 + Fe

  • MnO2 + Al

  • Fe2O3 + Al

  • Cu2O + Fe

77.Page 234

Which of the following alloys contains a non-metal as one of the constituents?

  • brass

  • amalgam

  • steel

  • bronze

78.Page 234

During the refining of an impure metal by electrolysis, the pure metal is a deposited ______.

  • at cathode

  • on the walls of electrolytic tank

  • at anode

  • at the bottom of electrolytic tank

79.Page 234

Which of the following metals can be obtained from haematite ore?

  • copper

  • sodium

  • zinc

  • iron

80.Page 235

Brass is an alloy of ______.

  • Cu and Sn

  • Cu and Pb

  • Pb and Sn

  • Zn and Cu

81.Page 235

The metal which is always present in an amalgam is ______.

  • iron

  • aluminium

  • mercury

  • magnesium

82.Page 235

Manganese metal is extracted from manganese dioxide by a reduction process by making use of ______.

  • carbon

  • hydrogen

  • electrolysis

  • aluminium

83.Page 235

The metal which can be extracted simply by heating the cinnabar ore in air is ______.

  • Zn

  • Cu

  • Al

  • Hg

84.Page 235

During galvanisation, iron metal is given a thin coating of one of the following metals. This metal is ______.

  • chromium

  • tin

  • zinc

  • copper

85.Page 235

Which of the following metals are extracted by the electrolysis of their molten chlorides?

  • Na and Hg

  • Hg and Mg

  • Na and Mg

  • Cu and Fe

86.Page 235

Rock salt is an ore of one of the following metals. This metal is ______.

  • Mn

  • Na

  • Fe

  • Cu

87.Page 235

The articles made of silver metal become dark on prolonged exposure to air. This is due to the formation of a layer of its ______.

  • oxide

  • hydride

  • sulphide

  • carbonate

88.Page 235

A sulphide ore is converted into metal oxide by the process of ______.

  • carbonation

  • roasting

  • calcination

  • anodising

89.Page 234

The metal which can be extracted from pyrolusite ore is ______.

  • mercury

  • manganese

  • aluminium

  • magnesium

90.Page 235

Calamine ore can be converted into zinc oxide by the process of ______.

  • dehydration

  • roasting

  • calcination

  • sulphonation

91.Page 235

Zinc blende ore can be converted into zinc oxide by the process of ______.

  • roasting

  • hydrogenation

  • chlorination

  • calcination

Questions Based on High Order Thinking Skills (HOTS)/Case Based Questions

92.Page 235

An element A which is a part of common salt and kept under kerosene reacts with another element B of atomic number 17 to give a product C. When an aqueous solution of product C is electrolysed then a compound D is formed and two gases are liberated.

  1. What are A and B?
  2. Identify C and D.
  3. What will be the action of C on litmus solution? Why?
  4. State whether element B is a solid, liquid or gas at room temperature.
  5. Write formula of the compound formed when element B reacts with an element E having atomic number 5.
93.Page 235

A metal which exists as a liquid at room temperature is obtained by heating its sulphide ore in the presence of air.

  1. Name the metal and write its chemical symbol.
  2. Write the name and formula of the sulphide ore.
  3. Give the equations of chemical reactions involved in the production of metal from its sulphide ore.
  4. Name a common device in which this metal is used.
  5. Can this metal displace copper from copper sulphate solution? Why?
94.Page 236

No chemical reaction takes place when granules of a rusty-brown solid A are mixed with the powder of another solid B. However, when the mixture is heated, a reaction takes place between its components. One of the products C is a metal and settles down in the molten state while the other product D floats over it. It was observed that the reaction is highly exothermic.

  1. What could the solids A and B be?
  2. What are the products C and D most likely to be?
  3. Write the chemical equation for the reaction between A and B leading to the formation of C and D. Mention the physical states of all the reactants and products in this equation and indicate the heat change which takes place.
  4. What is the special name of such a reaction? State one use of such a reaction.
  5. Name any two types of chemical reactions under which the above reaction can be classified.
95.Page 236

In an electrolytic tank, aluminium metal is being extracted by the electrolysis of molten aluminium oxide using carbon electrodes. It is observed that one of the carbon electrodes is gradually burnt away and has to be replaced.

  1. Which carbon electrode (cathode or anode) is burnt away?
  2. Why is this carbon electrode burnt away?
96.Page 236

A metal X which is resistant to corrosion is produced by the electrolysis of its molten oxide whereas another metal Y which is also resistant to corrosion is produced by the reduction of its oxide with carbon. Metal X can be used in powder form in thermite welding whereas metal Y is used in making cathodes of ordinary dry cells.

  1. Name the metals X and Y.
  2. Which of the two metals is more reactive: X or Y?
  3. Name one ore or metal X. Also write its chemical formula.
  4. Name one ore of metal Y. Also write its chemical formula.
  5. Name one alloy of metal X and one alloy of metal Y.
97.Page 236

When an object made of metal A is kept in air for a considerable time, it loses its shine and becomes almost black due to the formation of a layer of substance B. When an object made of another metal C is kept in damp air for a considerable time, it gets covered with a green layer of substance D. Metal A is the best conductor of electricity whereas metal C is the next best conductor of electricity.

  1. What is metal А?
  2. What is metal C?
  3. Name the substance B.
  4. Name the substance D
  5. What type of chemical can be used to remove the green layer from metal C and clean it? Why?
98.Page 236

Four metals P, Q, R and S are all obtained by the reduction of their oxides with carbon. Metal P is used to form a thin layer over the sheets of metal S to prevent its corrosion. Metal Q is used for electroplating tiffin boxes made of metal S whereas metal R is used in making car batteries. Metals Q and R form an alloy called solder. What are metals P, Q, R and S? How have you arrived at this conclusion?

99.Page 236

A black metal oxide XO2 is used as a catalyst in the preparation of oxygen gas from potassium chlorate. The oxide XO2 is also used in ordinary dry cells. The metal oxide XO2 cannot be reduced satisfactorily with carbon to form metal X.

  1. Name the metal X.
  2. Name the metal oxide XO2.
  3. Which reducing agent can be used to reduce XO2 to obtain metal X?
  4. Name another metal which can also be extracted by the reduction of its oxide with the above reducing agent.
100.Page 236

Metals X and Y can be recovered from the anode mud left behind after the electrolytic refining of copper metal. The coins made of metal X look new even after several years of use but the coins made of metal Y lose their shine gradually and get blackened soon. When metal X is alloyed with a small amount of metal Y, it becomes hard and hence suitable for making ornaments. What are metals X and Y? Also state the colour of metal X.

Questions Based on Assertion-Reason [Page 237]

Lakhmir Singh solutions for केमिस्ट्री [अंग्रेजी] कक्षा १० 3 Metals and Non-metals Questions Based on Assertion-Reason [Page 237]

Questions Based on Assertion-Reason

1.Page 237

Assertion (A): To have 2 or 8 electrons in the outermost shell of an atom is always considered to be the most stable arrangement of atoms.

Reason (R): Though 8 electrons in the outermost shell always impart stability to an atom, but 2 electrons in the outermost shell of an atom impart stability only when the outermost shell is the first shell (K shell), and no other shells are present in the atom.

  • Both A and R are true and R is correct explanation of the assertion.

  • Both A and R are true but R is not the correct explanation of the assertion.

  • A is true but R is false.

  • A is false but R is true.

2.Page 237

Assertion (A): The two important characteristics of metal elements are malleability and ductility. 

Reason (R): The property which allows the metals to be drawn into thin wires is called malleability. On the other hand, the property which allows the metals to be hammered into thin sheets is called ductility.

  • Both A and R are true and R is correct explanation of the assertion.

  • Both A and R are true but R is not the correct explanation of the assertion.

  • A is true but R is false.

  • A is false but R is true.

3.Page 237

Assertion (A): Mercury is a less reactive metal which is quite low in the activity series. Mercury metal can be extracted just by heating its sulphide ore in air.

Reason (R): The reduction of metal oxide to form metal by using aluminium powder as a reducing agent is called a thermite reaction (or thermite process).

  • Both A and R are true and R is correct explanation of the assertion.

  • Both A and R are true but R is not the correct explanation of the assertion.

  • A is true but R is false.

  • A is false but R is true.

4.Page 237

Assertion (A): When an iron object is left in dry air for a considerable time, it gets covered with a red-brown flaky substance called rust. This is called rusting of iron. 

Reason (R): The eating up of metal objects by the action of air, moisture or a chemical (such as an acid) on their surface is called corrosion.

  • Both A and R are true and R is correct explanation of the assertion.

  • Both A and R are true but R is not the correct explanation of the assertion.

  • A is true but R is false.

  • A is false but R is true.

5.Page 237

Assertion (A): Although solid ionic compounds are made up of ions but they do not conduct electric current in the solid state. Ionic solids conduct electricity when dissolved in water or when melted.

Reason (R): In solid ionic compounds, the ions are held together in fixed positions by strong electrostatic forces and cannot move freely. When an ionic solid is dissolved in water or melted, the crystal structure is broken down and ions become free to move and hence conduct electricity.

  • Both A and R are true and R is correct explanation of the assertion.

  • Both A and R are true but R is not the correct explanation of the assertion.

  • A is true but R is false.

  • A is false but R is true.

Solutions for 3: Metals and Non-metals

Exercise 1Exercise 2Exercise 3Questions Based on Assertion-Reason
Lakhmir Singh solutions for केमिस्ट्री [अंग्रेजी] कक्षा १० chapter 3 - Metals and Non-metals - Shaalaa.com

Lakhmir Singh solutions for केमिस्ट्री [अंग्रेजी] कक्षा १० chapter 3 - Metals and Non-metals

Shaalaa.com has the CBSE, Karnataka Board Mathematics केमिस्ट्री [अंग्रेजी] कक्षा १० CBSE, Karnataka Board solutions in a manner that help students grasp basic concepts better and faster. The detailed, step-by-step solutions will help you understand the concepts better and clarify any confusion. Lakhmir Singh solutions for Mathematics केमिस्ट्री [अंग्रेजी] कक्षा १० CBSE, Karnataka Board 3 (Metals and Non-metals) include all questions with answers and detailed explanations. This will clear students' doubts about questions and improve their application skills while preparing for board exams.

Further, we at Shaalaa.com provide such solutions so students can prepare for written exams. Lakhmir Singh textbook solutions can be a core help for self-study and provide excellent self-help guidance for students.

Concepts covered in केमिस्ट्री [अंग्रेजी] कक्षा १० chapter 3 Metals and Non-metals are .

Using Lakhmir Singh केमिस्ट्री [अंग्रेजी] कक्षा १० solutions Metals and Non-metals exercise by students is an easy way to prepare for the exams, as they involve solutions arranged chapter-wise and also page-wise. The questions involved in Lakhmir Singh Solutions are essential questions that can be asked in the final exam. Maximum CBSE, Karnataka Board केमिस्ट्री [अंग्रेजी] कक्षा १० students prefer Lakhmir Singh Textbook Solutions to score more in exams.

Get the free view of Chapter 3, Metals and Non-metals केमिस्ट्री [अंग्रेजी] कक्षा १० additional questions for Mathematics केमिस्ट्री [अंग्रेजी] कक्षा १० CBSE, Karnataka Board, and you can use Shaalaa.com to keep it handy for your exam preparation.

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