Chapter - Exercise
Solution 1
Chapter 3 - Elements, Compounds and Mixtures Exercise 41
Question 1
Name:
(a) The most abundant element present in the Earth's crust.
(b) The three most common elements present in the human body.
(c) Two elements that exist in the liquid state.
(d) One gaseous element which is
(i) Monoatomic
(ii) Diatomic
(e) Two metallic elements that can exist as liquids at about 30oC.
(f) Name two noble gases?
(a) The most abundant element present in the Earth's crust.
(b) The three most common elements present in the human body.
(c) Two elements that exist in the liquid state.
(d) One gaseous element which is
(i) Monoatomic
(ii) Diatomic
(e) Two metallic elements that can exist as liquids at about 30oC.
(f) Name two noble gases?
Solution 1
(a) Oxygen
(b) Carbon, hydrogen, Oxygen
(c) Mercury, Bromine
(d) (i) Helium
(ii) Oxygen
(e) Gallium,caesium
(f) Two noble gases are-
(a) Helium
(b) Argon
(b) Carbon, hydrogen, Oxygen
(c) Mercury, Bromine
(d) (i) Helium
(ii) Oxygen
(e) Gallium,caesium
(f) Two noble gases are-
(a) Helium
(b) Argon
Chapter 3 - Elements, Compounds and Mixtures Exercise 42
Question 1
What are the metalloids? Write two examples of metalloids.
Solution 1
Metalloids - The elements which possess properties intermediate between those of the metals and non-metals are called as metalloids. They react with both acids and alkali's to form salts.
Ex - Arsenic, antimony
Ex - Arsenic, antimony
Question 2
Name a non-metal which is a good conductor of electricity.
Solution 2
Graphite is a non-metal which is a good conductor of electricity.
Question 3
Compare the properties of metals and non-metals with respect to
(a) Malleability
(b) ductility
(c) conductivity
(a) Malleability
(b) ductility
(c) conductivity
Solution 3
Question 4
What is the general name of the materials which contain atleast two pure substances and show the properties of their constituents?
Solution 4
Mixture is the general name of the materials which contain atleast two pure substances and show the properties of their constituents.
Question 5
Name the following:
(a) A metal stored in kerosene oil.
(b) A liquid non-metal.
(c) A metalloid
(d) A radioactive noble gas.
(e) A liquid metal
(f) A solvent for rust
(g) A gas which is highly soluble in water.
(a) A metal stored in kerosene oil.
(b) A liquid non-metal.
(c) A metalloid
(d) A radioactive noble gas.
(e) A liquid metal
(f) A solvent for rust
(g) A gas which is highly soluble in water.
Solution 5
(a) Sodium
(b) Bromine
(c) Arsenic
(d) Radon
(e) Mercury
(f) Oxalic acid
(g) Carbon dioxide
(b) Bromine
(c) Arsenic
(d) Radon
(e) Mercury
(f) Oxalic acid
(g) Carbon dioxide
Question 6
State the differences between an element and a compound.
Solution 6
Question 7
Fill in the blanks:
(a) Elements cannot be broken into ______ by chemical or physical methods.
(b) An element is a pure substance in which the ______ number of each atom is same.
(c) Carbon is an element because the atomic number of each carbon atom is ______.
(d) An example of a homogeneous mixture of a liquid and a solid is ______.
(e) The atomicity of Oxygen is ______.
(a) Elements cannot be broken into ______ by chemical or physical methods.
(b) An element is a pure substance in which the ______ number of each atom is same.
(c) Carbon is an element because the atomic number of each carbon atom is ______.
(d) An example of a homogeneous mixture of a liquid and a solid is ______.
(e) The atomicity of Oxygen is ______.
Solution 7
(a) simpler substances
(b) atomic
(c) same
(d) mixture of salt and water
(e) two
(b) atomic
(c) same
(d) mixture of salt and water
(e) two
Question 8
Brass is a mixture of two elements namely copper and zinc. Write the names of two other mixtures which contain elements only.
Solution 8
Names of two other mixtures which contain elements only are-
(a) Bronze
(b) Duralumin
(a) Bronze
(b) Duralumin
Question 9
Define
(a) A molecule
(b) Atomicity
(a) A molecule
(b) Atomicity
Solution 9
(a) A Molecule - The smallest particle of a substance that retains the chemical and physical properties of the substance and is composed of two or more atoms.
(b) Atomicity - Atomicity of an element is defined as the number of atoms present in one molecule of that element.
(b) Atomicity - Atomicity of an element is defined as the number of atoms present in one molecule of that element.
Question 10
Why cannot a mixture be represented by a chemical formula?
Solution 10
Since, the constituents of a mixtures may be present in varying proportions so it cannot be expressed by a fixed chemical formula.
Question 11
Name a mixture is used.
(a) By all living things.
(b) In the construction of buildings.
(c) As a food.
(a) By all living things.
(b) In the construction of buildings.
(c) As a food.
Solution 11
(a) Air
(b) Cement
(c) Milk Sugar solution
(b) Cement
(c) Milk Sugar solution
Question 12
What would you observe if a mixture of powdered iron and sulphur is heated in a test tube?
Solution 12
If a mixture of powdered iron and sulphur is heated in a test tube, a black shiny compound iron(II) sulphide (FeS) is formed.
Question 13
Name two elements which show exceptions to the properties of
(a) Metals
(b) Non-metals
(a) Metals
(b) Non-metals
Solution 13
(a) Tungsten, Mercury
(b) Graphite, Iodine
(b) Graphite, Iodine
Question 14
Air is a mixture. Give points in support of this statement.
Solution 14
Air is a mixture because-
(i) The composition of air is not fixed i.e. the components may be present in any proportion by mass.
(ii) Components of air i.e. nitrogen, oxygen etc. do not react with each other.
(i) The composition of air is not fixed i.e. the components may be present in any proportion by mass.
(ii) Components of air i.e. nitrogen, oxygen etc. do not react with each other.
Question 15
Classify the following into elements, mixtures and compounds: lead, gunpowder, air, petrol, ink, common salt, alcohol, sand, sodium and mercury.
Solution 15
Elements - Lead, Mercury, Sodium
Mixtures - Air, petrol, ink, gunpowder
Compounds - Common salt, alcohol, sand
Mixtures - Air, petrol, ink, gunpowder
Compounds - Common salt, alcohol, sand
Question 16
What are pure and impure substances? Give two examples of each.
Solution 16
Pure substance-
A pure substance is one which is made up of only one kind of particles. These particles may be atoms or molecules.
Example-Sulphur, water.
Impure substance-
They are mixtures of two or more chemically different substances mixed in indefinite proportions. The constituent substances retain their properties in the mixture.
Example-Mixture of salt and sand, gunpowder
A pure substance is one which is made up of only one kind of particles. These particles may be atoms or molecules.
Example-Sulphur, water.
Impure substance-
They are mixtures of two or more chemically different substances mixed in indefinite proportions. The constituent substances retain their properties in the mixture.
Example-Mixture of salt and sand, gunpowder
Question 17
Name a metal and a non-metal which are liquids at room temperature.
Solution 17
Mercury is the metal which is liquid at room temperature and bromine is the non-metal which is liquid at room temperature.
Question 18
What are the main differences between compounds and mixtures?
Solution 18
Question 19
Draw a flow chart for the schematic representation of different types of matter.
Solution 19
Question 20
State two reasons for believing that copper is a metal and sulphur is a non-metal.
Solution 20
Two reasons for believing that copper is a metal and sulphur is a non-metal are:-
(i) Copper is malleable and ductile while sulphur is neither malleable nor ductile.
(ii) Copper is a good conductor of heat while sulphur is not good conductor of heat.
(i) Copper is malleable and ductile while sulphur is neither malleable nor ductile.
(ii) Copper is a good conductor of heat while sulphur is not good conductor of heat.
Chapter 3 - Elements, Compounds and Mixtures Exercise 43
Question 1
How many types of mixtures are known? Give examples also.
Solution 1
Question 2
Define the following terms and answer the association questions.
(a) Chromatography: State three advantages of chromatography.
(b) Filtration: Give example of a mixture in which the components can be separated by this technique.
(c) Fractional distillation : Can a mixture of chloroform and water be separated by this method.
(d) Centrifugation: State one application of this method.
(a) Chromatography: State three advantages of chromatography.
(b) Filtration: Give example of a mixture in which the components can be separated by this technique.
(c) Fractional distillation : Can a mixture of chloroform and water be separated by this method.
(d) Centrifugation: State one application of this method.
Solution 2
(a) Chromatography - The chromatography is a technique of separating pure substances from the mixture.
Advantages of chromatography -
(i) It requires a very small amount of the substance or sample.
(ii) The components retain their individuality during the process.
(iii) Chromatography finds application in easy separation of substances with similar physical and chemical properties.
(b) Filtration-It is a separation technique for separating a mixture in which one component should be solid and insoluble in the other liquid component.
Example- Barium sulphate in water.
(c) Fractional distillation -
It is a technique used to separate two liquids which dissolve in one another.The separation relies on the differences in boiling points of the two liquids.
No, mixture of chloroform and water cannot be separated by this method.
(d) Centrifugation:It is a method for separating the suspended particles of a substance from a liquid in which the mixture is rotated at a high speed in centrifuge machine.
Application - The clay particles in water (which are very fine) can be separated by centrifugation.
Advantages of chromatography -
(i) It requires a very small amount of the substance or sample.
(ii) The components retain their individuality during the process.
(iii) Chromatography finds application in easy separation of substances with similar physical and chemical properties.
(b) Filtration-It is a separation technique for separating a mixture in which one component should be solid and insoluble in the other liquid component.
Example- Barium sulphate in water.
(c) Fractional distillation -
It is a technique used to separate two liquids which dissolve in one another.The separation relies on the differences in boiling points of the two liquids.
No, mixture of chloroform and water cannot be separated by this method.
(d) Centrifugation:It is a method for separating the suspended particles of a substance from a liquid in which the mixture is rotated at a high speed in centrifuge machine.
Application - The clay particles in water (which are very fine) can be separated by centrifugation.
Question 3
Explain the following terms:
(a) Sublimate
(b) Distillate
(c) Filtrate
(d) Supernatant liquid
(e) Sediment
(a) Sublimate
(b) Distillate
(c) Filtrate
(d) Supernatant liquid
(e) Sediment
Solution 3
(a) The vapour state which is obtained by heating solid without passing through liquid state is called sublimate.
(b) A liquid condensed from vapour in distillation is called distillate.
(c) The liquid produced after filtering a suspension of a solid in a liquid is called filtrate.
(d) Supernatant liquid is the upper layer of fluid found after a mixture has been centrifuged.
(e) If there is a heterogeneous mixture containing an insoluble solid in a liquid, then the solid substance that settle down is called sediment.
(b) A liquid condensed from vapour in distillation is called distillate.
(c) The liquid produced after filtering a suspension of a solid in a liquid is called filtrate.
(d) Supernatant liquid is the upper layer of fluid found after a mixture has been centrifuged.
(e) If there is a heterogeneous mixture containing an insoluble solid in a liquid, then the solid substance that settle down is called sediment.
Question 4
What process would you use to separate alcohol (B.P.=78oC) from a mixture of alcohol and water(B.P.=100oC)?
Solution 4
We use fractional distillation to separate alcohol from a mixture of alcohol and water since the difference in boiling point between alcohol and mixture is very less.
Question 5
Describe briefly how will you
(a) Obtain pure water from sea water?
(b) Obtain a sample of pure iodine and sodium chloride.
(a) Obtain pure water from sea water?
(b) Obtain a sample of pure iodine and sodium chloride.
Solution 5
(a) We obtain pure water from sea water by distillation.
(b) A sample of pure iodine and sodium chloride is obtained by sublimation.
(b) A sample of pure iodine and sodium chloride is obtained by sublimation.
Question 6
On what factors does the separation of the mixture depends?
Solution 6
The separation of the mixture depends upon-
(i) Size of the constituents
(ii) Magnetic properties of constituents
(iii) Mass of the constituents
(iv) Solubility of the constituents
(v) Miscibilities of the constituents
(vi) Boiling point of the constituents
(vii) Diffusion rate of the constituents
(i) Size of the constituents
(ii) Magnetic properties of constituents
(iii) Mass of the constituents
(iv) Solubility of the constituents
(v) Miscibilities of the constituents
(vi) Boiling point of the constituents
(vii) Diffusion rate of the constituents
Question 7
What is solvent extraction? Give an example of a separation of mixture by this method?
Solution 7
This is a separation technique of solid-solid mixture. This method involves the use of a solvent in which only one of the solid present in the mixture dissolves. Undissolved solid is removed by filtration. Mixture of ammonium chloride and silver chloride is separated by this method.
Question 8
(a) Name a technique to separate a mixture of two liquids?
(b) Can a mixture of chloroform (B.P.= 61oC) and carbon tetrachloride (B.P.=77OC) be satisfactorily separated by the process you use for separating the various fractions of petroleum? What modifications will you make in the apparatus for this purpose?
(b) Can a mixture of chloroform (B.P.= 61oC) and carbon tetrachloride (B.P.=77OC) be satisfactorily separated by the process you use for separating the various fractions of petroleum? What modifications will you make in the apparatus for this purpose?
Solution 8
(a) By distillation and fractional distillation we separate the mixture of two liquids.
(b) Yes, mixture of chloroform (B.P.= 61oC) and carbon tetrachloride (B.P.=77OC) be satisfactorily separated by the process of fractional distillation which is used for separating the various fractions of petroleum.
For this purpose we will make two fractionating columns in the apparatus.
(b) Yes, mixture of chloroform (B.P.= 61oC) and carbon tetrachloride (B.P.=77OC) be satisfactorily separated by the process of fractional distillation which is used for separating the various fractions of petroleum.
For this purpose we will make two fractionating columns in the apparatus.
Question 9
Name three different methods in each case for separation of
(a) Solid-solid mixtures
(b) Solid liquid mixtures
(c) Liquid-liquid mixtures
Give one example in each case.
(a) Solid-solid mixtures
(b) Solid liquid mixtures
(c) Liquid-liquid mixtures
Give one example in each case.
Solution 9
(a) Solid-solid mixtures
(i) Magnetic separation method-Separation of iron ore from impurities
(ii) Gravity separation-Mixture of saw dust and sand
(iii) Solvent extraction-Mixture of sulphur and sand
(b) Solid- liquid mixtures
(i) Evaporation-Water and sodium chloride
(ii) Distillation-Iodine in chloroform
(iii) Filtration-Barium sulphate in water
(c) Liquid-liquid mixtures
(i) By separating funnel-Oil and water mixture
(ii) Distillation-Acetone and water
(iii) Fractional distillation-Ethyl alcohol and water
(i) Magnetic separation method-Separation of iron ore from impurities
(ii) Gravity separation-Mixture of saw dust and sand
(iii) Solvent extraction-Mixture of sulphur and sand
(b) Solid- liquid mixtures
(i) Evaporation-Water and sodium chloride
(ii) Distillation-Iodine in chloroform
(iii) Filtration-Barium sulphate in water
(c) Liquid-liquid mixtures
(i) By separating funnel-Oil and water mixture
(ii) Distillation-Acetone and water
(iii) Fractional distillation-Ethyl alcohol and water
Question 10
What do you understand by chromatography? On what principal is it based?
Solution 10
The chromatography is the technique of separating pure substances from the mixtures. The chromatographic techniques was first employed by a Russian scientist Michael Tswett in 1903 for the separation of coloured substance from the mixture.
Principle of chromatography: The principle of chromatography is based on the difference in the extent of interaction (absorption) of various substances with a stationary phase and a mobile phase. A substance which interacts strongly with the mobile phase goes ahead of the other substance which interacts strongly with the stationary phase.
Principle of chromatography: The principle of chromatography is based on the difference in the extent of interaction (absorption) of various substances with a stationary phase and a mobile phase. A substance which interacts strongly with the mobile phase goes ahead of the other substance which interacts strongly with the stationary phase.
Question 11
How is chromatography applied in the separation of coloured constituents present in a mixture of ink?
Solution 11
Ink generally contain more than one dye. This mixture of ink is used as moving phase. Different constituents of ink move at different speed. The solvent rises up the filter paper over the spot and carries the different coloured components of ink to different heights on the filter paper. Each spot thus obtained at a particular height on the filter paper contains a particular constituent of the ink. Thus, the components of the ink are separated.
Question 12
Name the process used to separate the components of liquid air.
Solution 12
By the help of fractional distillation we separate the components of liquid air.
Question 13
In which of the following four substances (sodium chloride, sodium carbonate crystals, sulphuric acid and iron) will there be
(a) increase in weight,
(b) decrease in weight,
(c) no change in weight
When exposed to air ?
(a) increase in weight,
(b) decrease in weight,
(c) no change in weight
When exposed to air ?
Solution 13
(a) Increase in weight - Sulphuric acid and iron
(b) Decrease in weight - Sodium carbonate crystals
(c) No change in weight - Sodium chloride
(b) Decrease in weight - Sodium carbonate crystals
(c) No change in weight - Sodium chloride
Question 14
How will you separate a mixture of chalk powder and water?
Solution 14
By filtration, we will separate a mixture of chalk powder and water.
Question 15
Draw a neat and labelled diagram of the apparatus you would use to obtain pure water from a salt water mixture (or salt solution).
Solution 15
Question 16
What is the use of fractionating column in fractional distillation?
Solution 16
Fractionating column avoid the collection of distillate and re-distillation of distillate several times during fractional distillation.
Question 17
Name two pair of liquids which can be separated by using a separating funnel.
Solution 17
Two pair of liquids which can be separated by using a separating funnel-
(i) Oil and water
(ii) Chloroform and water
(i) Oil and water
(ii) Chloroform and water
Question 18
How will you separate camphor, common salt and iron nails from their mixture?
Solution 18
At first, with the help of magnet, iron nails will separate. Then, by sublimation camphor will separate from common salt.
Question 19
Distinguish between the following terms with examples:
(a) decantation and filtration,
(b) filtrate and distillate
(c) fractional distillation and fractional crystallization,
(d) metal and metalloid.
(a) decantation and filtration,
(b) filtrate and distillate
(c) fractional distillation and fractional crystallization,
(d) metal and metalloid.
Solution 19
Chapter 3 - Elements, Compounds and Mixtures Exercise 44
Question 1
You are given two substances X and Y. X is a mixture of iron powder and sulphur. Y is powdered iron sulphide. What changes, if any, will be observed in 'X' and 'Y' in each of the following cases:
(a) A magnet is moved over 'X' and 'Y' separately.
(b) 'X' and 'Y' are treated with carbon disulphide separately.
(c) 'X' and'Y' are treated with dilute HCl separately. State the reason for the difference in the behavior of 'X' and 'Y'.
(a) A magnet is moved over 'X' and 'Y' separately.
(b) 'X' and 'Y' are treated with carbon disulphide separately.
(c) 'X' and'Y' are treated with dilute HCl separately. State the reason for the difference in the behavior of 'X' and 'Y'.
Solution 1
(a) When a magnet is moved over 'X', iron fillings are pulled away and stick to the magnet. When a magnet is moved over 'Y', it remained unaffected.
(b) When'X' is treated with carbon disulphide, sulphur dissolves but not iron. While, when'Y' is treated with carbon disulphide, iron sulphide does not dissolve but sinks to the bottom of the test tube.
(c) When 'X' is treated with dilute HCl, a colourless, odourless gas hydrogen is evolved which burns with a blue flame and is extinguished with a pop sound. While, when 'Y' is treated with dilute HCl, a colourless gas with the smell of rotten eggs is evolved which is H2S.
There is difference in the behavior of 'X' and 'Y' because 'X' is a mixture while 'Y' is a compound. The component of a mixture do not react chemically, so retain their identity in the mixture while the components of compound react chemically, so do not retain their identity in the compound.
(b) When'X' is treated with carbon disulphide, sulphur dissolves but not iron. While, when'Y' is treated with carbon disulphide, iron sulphide does not dissolve but sinks to the bottom of the test tube.
(c) When 'X' is treated with dilute HCl, a colourless, odourless gas hydrogen is evolved which burns with a blue flame and is extinguished with a pop sound. While, when 'Y' is treated with dilute HCl, a colourless gas with the smell of rotten eggs is evolved which is H2S.
There is difference in the behavior of 'X' and 'Y' because 'X' is a mixture while 'Y' is a compound. The component of a mixture do not react chemically, so retain their identity in the mixture while the components of compound react chemically, so do not retain their identity in the compound.
Question 2
Name the process which is used in milk dairies to separate cream from milk.
Solution 2
Centrifugation is used in milk dairies to separate cream from milk dairies.
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