Question 1:
Which of
the statements about the reaction below are incorrect?
(a) Lead
is getting reduced.
(b) Carbon
dioxide is getting oxidised.
(c) Carbon
is getting oxidised.
(d) Lead
oxide is getting reduced.
(i) (a) and (b)
(ii) (a) and (c)
(iii) (a), (b) and (c)
(iv) all
(i)(a) and (b)
Question 2:
The above
reaction is an example of a
(a) combination
reaction.
(b) double
displacement reaction.
(c) decomposition
reaction.
(d) displacement
reaction.
(d) The given reaction is an example of a displacement reaction.
Question 3:
What
happens when dilute hydrochloric acid is
added to iron filings? Tick the correct answer.
(a) Hydrogen
gas and iron chloride are produced.
(b) Chlorine
gas and iron hydroxide are produced.
(c) No
reaction takes place.
(d) Iron
salt and water are produced.
(a) Hydrogen gas and iron chloride are produced. The reaction is as follows:
Question 4:
What is a
balanced chemical equation? Why should chemical equations be
balanced?
A reaction which has an equal number of atoms of all the elements on both sides of the chemical equation is called a balanced chemical equation.
The law of conservation of mass states that mass can neither be created nor destroyed. Hence, in a chemical reaction, the total mass of reactants should be equal to the total mass of the products. It means that the total number of atoms of each element should be equal on both sides of a chemical equation. Hence, it is for this reason that chemical equations should be balanced.
Question 5:
Translate the following statements into chemical equations and then
balance them.
(a) Hydrogen
gas combines with nitrogen to form ammonia.
(b) Hydrogen
sulphide gas burns in air to give water and
sulphur dioxide.
(c) Barium chloride reacts with aluminium sulphate
to give aluminium chloride and a precipitate of barium sulphate.
(d) Potassium metal reacts with water
to give potassium hydroxide and hydrogen gas.
(a)
(c)
Question 6:
Balance the following chemical equations.
(a)
(b)
(c)
(d)
(a) (a)
(b)
(c)
(d)
(b)
(c)
Question 7:
Write the balanced chemical equations for the following reactions.
(a) Calcium hydroxide + Carbon dioxide → Calcium carbonate + Water
(b) Zinc + Silver nitrate → Zinc nitrate + Silver
(c) Aluminium + Copper chloride → Aluminium chloride + Copper
(d) Barium chloride + Potassium sulphate → Barium sulphate +
Potassium chloride
(a) (a) Calcium hydroxide + Carbon dioxide → Calcium carbonate + Water
(b) Zinc + Silver nitrate → Zinc nitrate + Silver
(c) Aluminium + Copper chloride → Aluminium chloride + Copper
(d) Barium chloride + Potassium sulphate → Barium sulphate +
Potassium chloride
(c)
Question 8:
Write the balanced chemical equation for the following and
identify the type of reaction in each case.
(a)Potassium bromide (aq)
+ Barium iodide (aq) → Potassium iodide (aq)
+
Barium bromide(s)
(b) Zinc carbonate (s) →
Zinc oxide (s) + Carbon
dioxide (g)
(c) Hydrogen (g) +
Chlorine (g) → Hydrogen
chloride (g)
(d) Magnesium (s) +
Hydrochloric acid (aq) →
Magnesium chloride (aq) +
Hydrogen (g)
(a)
(b)
(c)
(d)
Question 9:
What does one mean by exothermic and endothermic reactions? Give
examples.
Chemical reactions that release energy in the form of heat, light, or sound are called exothermic reactions.
Example: Mixture of sodium and chlorine to yield table salt
In other words, combination reactions are exothermic.
Reactions that absorb energy or require energy in order to proceed are called endothermic reactions.
For example: In the process of photosynthesis, plants use the energy from the sun to convert carbon dioxide and water to glucose and oxygen.
Question 10:
Why is respiration considered an exothermic reaction? Explain.
Energy is required to support life. Energy in our body is obtained from the food we eat. During digestion, large molecules of food are broken down into simpler substances such as glucose. Glucose combines with oxygen in the cells and provides energy. The special name of this combustion reaction is respiration. Since energy is released in the whole process, it is an exothermic process.
Question 11:
Why
are decomposition reactions called the opposite of combination
reactions? Write equations for these
reactions.
Decomposition reactions are those in which a compound breaks down to form two or more substances. These reactions require a source of energy to proceed. Thus, they are the exact opposite of combination reactions in which two or more substances combine to give a new substance with the release of energy.
Decomposition reaction:
Combination reaction:
Question 12:
Write one
equation each for decomposition reactions where energy is supplied in
the form of heat, light or electricity.
(b) Decomposition by light:
(c) Decomposition by electricity:
Question 13:
What is
the difference between displacement and double displacement
reactions? Write equations for these reactions.
In a double displacement reaction, two atoms or a group of atoms switch places to form new compounds.
For example:
Displacement reaction:
Double displacement reaction:
Question 14:
In
the refining of silver, the recovery of silver from silver
nitrate solution involved displacement by copper metal. Write down
the reaction involved.
Question 15:
What do you mean by a precipitation reaction?
Explain by giving examples.
A reaction in which an insoluble solid (called precipitate) is formed is called a precipitation reaction.
For example:
In this reaction, calcium carbonate is obtained as a precipitate. Hence, it is a precipitation reaction.
Another example of precipitation reaction is:
In this reaction, barium sulphate is obtained as a precipitate.
Question 16:
Explain the following in terms of gain or loss of oxygen with two
examples each.
(a) Oxidation
(b) Reduction
(a) Oxidation is the gain of oxygen.
For example:
(i)
(b) Reduction is the loss of oxygen.
For example:
(i)
Question 17:
A
shiny brown-coloured element ‘X’
on heating in air becomes black in colour. Name the element ‘X’
and the black coloured compound formed.
X’ is copper (Cu) and the black-coloured compound formed is copper oxide (CuO). The equation of the reaction involved on heating copper is given below.
Question 18:
Why do we apply paint on iron articles?
Iron articles are painted because it prevents them from rusting. When painted, the contact of iron articles from moisture and air is cut off. Hence, rusting is prevented. So presence of air and moisture is essential for rusting to take place.
Question 19:
Oil and fat containing food items are flushed with nitrogen. Why?
Nitrogen is an inert gas and does not easily react with these substances. On the other hand, oxygen reacts with food substances and makes them rancid. Thus, bags used in packing food items are flushed with nitrogen gas to remove oxygen inside the pack. When oxygen is not present inside the pack, rancidity of oil and fat containing food items is avoided.
Question 20:
Explain the following terms with one example each.
(a) Corrosion
(b) Rancidity
(a) Corrosion:
Corrosion is defined as a process where materials, usually metals, deteriorate as a result of a chemical reaction with air, moisture, chemicals, etc.
For example, iron, in the presence of moisture, reacts with oxygen to form hydrated iron oxide.
This hydrated iron oxide is rust.
(b) Rancidity:
The process of oxidation of fats and oils that can be easily noticed by the change in taste and smell is known as rancidity.
For example, the taste and smell of butter changes when kept for long.
Rancidity can be avoided by:
1. Storing food in air tight containers
2. Storing food in refrigerators
3. Adding antioxidants
4. Storing food in an environment of nitrogen