METALS AND NON METALS
ANSWER
IN SHORT:
1.
Which nonmetal is in liquid state ?
ANS : Bromine is the nonmetal in liquid state.
ANS : Bromine is the nonmetal in liquid state.
2.
Give an example of a nonmetal which conducts heat and
electricity.
ANS : Graphite ( a form of carbon) conducts heat and electricity.
ANS : Graphite ( a form of carbon) conducts heat and electricity.
3.
Why are nonmetals electronegative elements ?
ANS : Nonmetals are electronegative elements because they accept electrons and form negatively charged ions.
ANS : Nonmetals are electronegative elements because they accept electrons and form negatively charged ions.
4.
Which type of oxides do nonmetals form ?
ANS : Nonmetals form either acidic or neutral oxides.
ANS : Nonmetals form either acidic or neutral oxides.
5.
Write formula of carbonic acid.
ANS : The formula of carbonic acid is H2CO3.
ANS : The formula of carbonic acid is H2CO3.
6.
Give examples of some neutral oxides.
ANS : CO, N2O, H2O are examples of neutral oxides.
ANS : CO, N2O, H2O are examples of neutral oxides.
7.
Why is carbon monoxide a neutral oxide ?
ANS : Carbon monoxide (CO) is a neutral oxide because it forms neither acid nor base with water.
ANS : Carbon monoxide (CO) is a neutral oxide because it forms neither acid nor base with water.
8.
Why do nonmetals not react with dilute acids ?
ANS : Nonmetals do not react with dilute acids because they are not able to displace hydrogen from acids.
ANS : Nonmetals do not react with dilute acids because they are not able to displace hydrogen from acids.
9.
Who discovered hydrogen ? When ?
ANS : English chemist Cavendish discovered hydrogen in 1766 AD.
ANS : English chemist Cavendish discovered hydrogen in 1766 AD.
10.
Why is ammonia a very important chemical ?
ANS : Ammonia is a very important chemical because it is used in the preparation of fertilisers, nitric acid, explosives, nylon fibre, etc as well as household cleaners.
ANS : Ammonia is a very important chemical because it is used in the preparation of fertilisers, nitric acid, explosives, nylon fibre, etc as well as household cleaners.
11.
Why is ammonia not collected by downward displacement of
water ?
ANS : Ammonia is not collected by downward displacement of water because it is highly soluble in water.
ANS : Ammonia is not collected by downward displacement of water because it is highly soluble in water.
12.
What is the full form of PABA ?
ANS : The full form of PABA is Para-Amino Benzoic Acid.
ANS : The full form of PABA is Para-Amino Benzoic Acid.
13.
Mention important ores of sulphur.
ANS : Important ores of sulphur are : Zinc blende (ZnS), gypsum (CaSO4.2H2O) and copper pyrites (CuFeS2).
ANS : Important ores of sulphur are : Zinc blende (ZnS), gypsum (CaSO4.2H2O) and copper pyrites (CuFeS2).
14.
Write electronic configuration of sulphur ?
ANS : The electronic configuration of sulphur is 2,8,6.
ANS : The electronic configuration of sulphur is 2,8,6.
15.
When SO2 is heated with H2S in the presence of
catalyst ______, sulphur is obtained. [Fill up the blank].
ANS : Fe2O3.
ANS : Fe2O3.
16.
Mention two crystalline allotropes of sulphur.
ANS : The crystalline allotropes of sulphur are (1) rhombic sulphur (2) monoclinic sulphur.
ANS : The crystalline allotropes of sulphur are (1) rhombic sulphur (2) monoclinic sulphur.
17.
What is transition temperature ?
ANS : The temperature at which one allotrope of an element changes into another allotrope is called TRANSITION TEMPERATURE of that element.
ANS : The temperature at which one allotrope of an element changes into another allotrope is called TRANSITION TEMPERATURE of that element.
18.
What is the transition temperature of sulphur ?
ANS : The transition temperature of sulphur is 96°C.
ANS : The transition temperature of sulphur is 96°C.
19.
What is the shape of the crystals of rhombic sulphur ?
ANS : The shape of the crystals of rhombic sulphur is octahedral.
ANS : The shape of the crystals of rhombic sulphur is octahedral.
20.
What is the shape of the crystals of monoclinic sulphur ?
ANS : The shape of the crystals of monoclinic sulphur is needle-like.
ANS : The shape of the crystals of monoclinic sulphur is needle-like.
21.
What is known as the king of chemicals ?
ANS : Sulphuric acid is known as the king of chemicals.
ANS : Sulphuric acid is known as the king of chemicals.
22.
Why is sulphuric acid known as the king of chemicals ?
ANS : Sulphuric acid is known as the king of chemicals because it is used to prepare many important chemical substances like fertilisers, dyes, soap, etc.
ANS : Sulphuric acid is known as the king of chemicals because it is used to prepare many important chemical substances like fertilisers, dyes, soap, etc.
23.
Which catalyst is used for conversion of SO2 into SO3 in contact chamber ?
ANS : V2O5 is used as catalyst for conversion of SO2 into SO3 in contact chamber.
ANS : V2O5 is used as catalyst for conversion of SO2 into SO3 in contact chamber.
24.
What is the strength of H2SO4 obtained by Contact process ?
ANS : The strength of H2SO4 obtained by Contact process is about 100 %.
ANS : The strength of H2SO4 obtained by Contact process is about 100 %.
25.
What is charring of sugar ?
ANS : The process in which concentrated sulphuric acid converts sugar to a black mass of carbon (sugar charcoal) by dehydration is called charring of sugar.
ANS : The process in which concentrated sulphuric acid converts sugar to a black mass of carbon (sugar charcoal) by dehydration is called charring of sugar.
26.
Give names of some nonmetallic elements.
ANS : Hydrogen, oxygen, nitrogen, chlorine, bromine, iodine, sulphur, phosphorus, etc. are nonmetallic elements.
ANS : Hydrogen, oxygen, nitrogen, chlorine, bromine, iodine, sulphur, phosphorus, etc. are nonmetallic elements.
27.
Write an equation for the reaction of phosphorus pentoxide
with water.
ANS :
ANS :
2P2O5(g) + 6H2O(l) → 4H3PO4(aq)
28.
Write the equation for the industrial production of hydrogen.
ANS :
ANS :
Ni catalyst
800°C
30 atm
CH4(g) + 2H2O -----> CO2(g) + 4H2(g)
800°C
30 atm
CH4(g) + 2H2O -----> CO2(g) + 4H2(g)
29.
By which method is ammonia gas produced ?
ANS : Ammonia gas is produced by Haber's process.
ANS : Ammonia gas is produced by Haber's process.
30.
Which nonmetallic element is obtained by Frasch process ?
ANS : Sulphur is obtained by Frasch process.
ANS : Sulphur is obtained by Frasch process.
31.
Write chemical formula of Oleum (fuming sulphuric acid).
ANS : The chemical formula of fuming sulphuric acid is H2S2O7.
ANS : The chemical formula of fuming sulphuric acid is H2S2O7.
32.
Which crystalline form of sulphur is most stable ?
ANS : Rhombic sulphur is the most stable crystalline form of sulphur.
ANS : Rhombic sulphur is the most stable crystalline form of sulphur.
33.
On which physical property of sulphur is Frasch process based
?
ANS : Frasch process is based on the property of low melting point (388 K) of sulphur.
ANS : Frasch process is based on the property of low melting point (388 K) of sulphur.
1.
Explain : Froth Floatation Process OR The process to concentrate
sulphide ores.
ANS : This method is used for the concentration of sulphide ores of copper, zinc, lead, etc.
PRINCIPLE: This method is based on the principle of difference in the wetting properties of the ore and the gangue particles with water and oil.
PROCESS:
The powdered ore is mixed with water, containing small quantity of oil (pine oil or turpentine oil) in a large tank.
The sulphide particles in the ore get wet with oil while dust and sand particles do not get wet with oil.
The water containing ore is agitated violently by blowing air to form froth.
Sulphide particles being lighter float along with the froth at the surface which is removed from the top of the tank and collected.
Impurities being heavier collect at the bottom. The froth is then washed, filtered and dried.
ANS : This method is used for the concentration of sulphide ores of copper, zinc, lead, etc.
PRINCIPLE: This method is based on the principle of difference in the wetting properties of the ore and the gangue particles with water and oil.
PROCESS:
The powdered ore is mixed with water, containing small quantity of oil (pine oil or turpentine oil) in a large tank.
The sulphide particles in the ore get wet with oil while dust and sand particles do not get wet with oil.
The water containing ore is agitated violently by blowing air to form froth.
Sulphide particles being lighter float along with the froth at the surface which is removed from the top of the tank and collected.
Impurities being heavier collect at the bottom. The froth is then washed, filtered and dried.
2.
Write a note on Magnetic Separation.
ANS :
PRINCIPLE:This method uses the principle of difference in the magnetic properties of the ore and the gangue (impurities).
EQUIPMENT:
A magnetic separator consists of a leather conveyer belt moving over two rollers. One of the rollers has a strong magnet in it.
PROCESS: Powdered ore is dropped on the moving belt at one end through a hopper. When it reaches the other end , nonmagnetic impurities fall down first whereas the magnetic particles fall later forming a separate heap.
This method is generally used for the concentration of iron ores.
ANS :
PRINCIPLE:This method uses the principle of difference in the magnetic properties of the ore and the gangue (impurities).
EQUIPMENT:
A magnetic separator consists of a leather conveyer belt moving over two rollers. One of the rollers has a strong magnet in it.
PROCESS: Powdered ore is dropped on the moving belt at one end through a hopper. When it reaches the other end , nonmagnetic impurities fall down first whereas the magnetic particles fall later forming a separate heap.
This method is generally used for the concentration of iron ores.
3.
Explain : Calcination with proper examples.
ANS : Calcination is a process in which concentrated ore is heated strongly in absence of air. Calcination is generally used
for conversion of metal carbonates and hydroxides in to their corresponding oxides and to remove volatile impurities.
ANS : Calcination is a process in which concentrated ore is heated strongly in absence of air. Calcination is generally used
for conversion of metal carbonates and hydroxides in to their corresponding oxides and to remove volatile impurities.
4.
Write a note on 'Chemical Reduction' method.
ANS : The conversion of metal oxide into metal is called REDUCTION. When chemicals like carbon, carbon monoxide, aluminium, etc. are used as reducing agents, the process is called CHEMICAL REDUCTION.
In the carbon-reduction process, the metal oxide is mixed with coke (a form of carbon) and heated in a furnace. Carbon reduces metal oxide to free metal. Oxides of zinc, iron, copper, nickel, tin and lead are reduced by this method.
ZnO(s) + C(s) → Zn(s) + CO(g)
Fe2O3(s) + 3C → 2Fe(s) + 3CO(g)
MnO2(s) + 2C(s) → Mn(s) + 2CO(g)
Carbon monoxide is also used as reducing agent.
Fe2O3(s) + 3CO(g) → 2Fe(s) + 3CO2(g)
Aluminium is used as reducing agent for the reduction of certain oxides of metals like chromium, manganese and iron. A large amount of heat is produced during the process and the metal is obtained in liquid (molten) state. The process is known as THERMIT PROCESS.
Cr2O3(s) + 2Al(s) → 2Cr(l) +Al2O3(s)
3MnO2(s) + 4Al(s) → 3Mn(l) + 2Al2O3(s)
Fe2O3(s) + 2Al(s) → 2Fe(l) + Al2O3(s)
Chemical reduction method cannot be used for highly reactive metals like sodium, potassium, aluminium, etc. Oxides of such metals are reduced by electrolytic reduction method.
ANS : The conversion of metal oxide into metal is called REDUCTION. When chemicals like carbon, carbon monoxide, aluminium, etc. are used as reducing agents, the process is called CHEMICAL REDUCTION.
In the carbon-reduction process, the metal oxide is mixed with coke (a form of carbon) and heated in a furnace. Carbon reduces metal oxide to free metal. Oxides of zinc, iron, copper, nickel, tin and lead are reduced by this method.
ZnO(s) + C(s) → Zn(s) + CO(g)
Fe2O3(s) + 3C → 2Fe(s) + 3CO(g)
MnO2(s) + 2C(s) → Mn(s) + 2CO(g)
Carbon monoxide is also used as reducing agent.
Fe2O3(s) + 3CO(g) → 2Fe(s) + 3CO2(g)
Aluminium is used as reducing agent for the reduction of certain oxides of metals like chromium, manganese and iron. A large amount of heat is produced during the process and the metal is obtained in liquid (molten) state. The process is known as THERMIT PROCESS.
Cr2O3(s) + 2Al(s) → 2Cr(l) +Al2O3(s)
3MnO2(s) + 4Al(s) → 3Mn(l) + 2Al2O3(s)
Fe2O3(s) + 2Al(s) → 2Fe(l) + Al2O3(s)
Chemical reduction method cannot be used for highly reactive metals like sodium, potassium, aluminium, etc. Oxides of such metals are reduced by electrolytic reduction method.
5.
Explain Electrochemical Reduction giving example.
ANS : Oxides of highly reactive metals like sodium, potassium and aluminium cannot be reduced by using chemical reduction ( by carbon or aluminium). If carbon is used large amount of heat is required and metal carbide is formed. These metals are obtained by electrolysis of their fused (molten) salts. The cathode acts as the reducing agent as it supplies electrons to metal ions.
ELECTROLYSIS OF SODIUM CHLORIDE
In this process molten sodium chloride is taken as electrolyte in an electrolytic cell. The reactions taking place at the two electrodes are :
ANS : Oxides of highly reactive metals like sodium, potassium and aluminium cannot be reduced by using chemical reduction ( by carbon or aluminium). If carbon is used large amount of heat is required and metal carbide is formed. These metals are obtained by electrolysis of their fused (molten) salts. The cathode acts as the reducing agent as it supplies electrons to metal ions.
ELECTROLYSIS OF SODIUM CHLORIDE
In this process molten sodium chloride is taken as electrolyte in an electrolytic cell. The reactions taking place at the two electrodes are :
NaCl(l) → Na+ + Cl-
Na+ + e- → Na(s)
(at cathode)
Cl- → Cl + e-
(at anode)
Cl + Cl → Cl2(g)
Na+ + e- → Na(s)
(at cathode)
Cl- → Cl + e-
(at anode)
Cl + Cl → Cl2(g)
If aqueous solution of sodium chloride is taken instead of molten sodium chloride, reduction of hydrogen ions (2H+) to hydrogen (H2 gas) takes place instead of reduction of sodium ion(Na+) to sodium metal.
6.
Explain : Reactivity Series of Metals.
ANS : The series of metals in the decreasing order of their reactivities is called reactivity series of metals. Some metals like sodium and potassium are highly reactive whereas metals like copper, silver and gold have very low reactivity.
The reactivities of metals can be compared by their reaction with dilute acid or by comparing their oxidation potential with the standard hydrogen potential. Based on their reaction with dilute acids the following series has been prepared :
K > Na > Ca > Mg > Al > Zn > Fe > Pb > (H) > Cu > Hg > Ag > Au
The metals on the left of the hydrogen in the series are more reactive and they can displace hydrogen from acids. Metals on the right side of hydrogen are less reactive and they cannot liberate hydrogen from dilute aqueous acids.
similarly, a more reactive metal can displace a less reactive metal from its solution. Thus, a strip of more reactive zinc displaces less reactive copper from aqueous copper sulphate solution (Displacement reaction). The blue colour of copper sulphate solution disappears gradually and brown granules of copper are seen at the bottom.
Zn(s) + CuSO4(aq) → ZnSO4(aq) + Cu(s)
If a strip of copper is placed in the solution of ZnSO4, no chemical reaction occurs as copper is less reactive than zinc.
ANS : The series of metals in the decreasing order of their reactivities is called reactivity series of metals. Some metals like sodium and potassium are highly reactive whereas metals like copper, silver and gold have very low reactivity.
The reactivities of metals can be compared by their reaction with dilute acid or by comparing their oxidation potential with the standard hydrogen potential. Based on their reaction with dilute acids the following series has been prepared :
K > Na > Ca > Mg > Al > Zn > Fe > Pb > (H) > Cu > Hg > Ag > Au
The metals on the left of the hydrogen in the series are more reactive and they can displace hydrogen from acids. Metals on the right side of hydrogen are less reactive and they cannot liberate hydrogen from dilute aqueous acids.
similarly, a more reactive metal can displace a less reactive metal from its solution. Thus, a strip of more reactive zinc displaces less reactive copper from aqueous copper sulphate solution (Displacement reaction). The blue colour of copper sulphate solution disappears gradually and brown granules of copper are seen at the bottom.
Zn(s) + CuSO4(aq) → ZnSO4(aq) + Cu(s)
If a strip of copper is placed in the solution of ZnSO4, no chemical reaction occurs as copper is less reactive than zinc.
7.
Write two equations each for obtaining metal oxides and
hydroxides.
ANS :
OXIDES
ANS :
OXIDES
i.When sodium reacts with oxygen it forms sodium
oxide.
4Na(s) + O2(g) → 2Na2O(s)
ii.Iron reacts with steam and forms iron oxide and
hydrogen gas.
3Fe(s) + 4H2O(g) → Fe3O4(s) + 4H2(g)
HYDROXIDES
iii.Sodium oxide reacts with water and forms sodium
hydroxide.
Na2O(s) + H2O(l) → 2NaOH(aq)
iv.Magnesium reacts slowly with cold water and
forms magnesium hydroxide and hydrogen gas.
Mg(s) + 2H2O(l) → Mg(OH)2(aq) + H2(g)
8.
Give names of different steps of metallurgy and write a brief
note on each step.
ANS : Different steps involved in metallurgy are :
ANS : Different steps involved in metallurgy are :
·
Crushing and grinding of ore
·
Concentration or enrichment of ore
·
Roasting, calcination and smelting
·
Reduction
·
Refining and purification of metals
CRUSHING AND GRINDING OF ORE : The ore in the form of big rocks is broken into small pieces with the help of crushers. These small pieces are then powdered with the help of a ball mill or stamp mill.
CONCENTRATION OR ENRICHMENT OF ORE : The process of removal of impurities from an ore is called ' Ore Concentration'. Different methods are employed for concentration of ore depending on the nature of ore and the impurities in it.
Froth Floatation Process is used for the concentration of sulphide ores.
Magnetic Separation method is used for removal impurities present in an ore with magnetic properties or for concentration of a nonmagnetic ore containing magnetic impurities.
Centrifugal method is used when there is a large difference in the densities of ore and impurities.
Ores of highly reactive metals are concentrated by chemical method.
ROASTING, CALCINATION,SMELTING :
Roasting is used to convert sulphide ores into oxides by heating for a longer period.
Calcination is the process of heating the ore strongly in absence of air to remove (i) volatile impurities (ii)water [from hydrated ore] or (iii) to convert carbonate ore into metal oxide.
Smelting is used to get an ore reduced to metal by heating whereby the metal is obtained in molten state.
REDUCTION : The conversion of metal oxide into metal is called 'Reduction'. For chemical reduction, reducing agents like carbon, carbon monoxide and aluminium are used. Metals like zinc, iron, copper, nickel, tin and lead are obtained by chemical reduction of their oxides.
Fe2O3(s) + 3C(s) → 2Fe(s) + 3CO(g)
3MnO2 + 4Al → 3Mn + 2Al2O3
3MnO2 + 4Al → 3Mn + 2Al2O3
The oxides of highly reactive metals cannot be reduced by chemical reduction using carbon or aluminium. Such metals are extracted by electrolytic reduction of their molten salts. During electrolysis the cathode acts as reducing agent by supplying electrons to metal ions. Sodium, potassium and aluminium are obtained by this method.
REFINING OF METALS : The metals obtained from their ores after several metallurgical processes still contain some impurities. The removal of these impurities is called refining of metals. Refining is done mainly by two processes.
vi.LIQUATION (Liquefaction) method is used to
remove impurities from metals like tin, lead and bismuth whose melting points
are low as compared to those of impurities.
vii.ELECTROLYTIC REFINING is used to refine metals
like zinc, lead, aluminium, copper, silver, gold, etc. The impure metal works
as anode, a strip of pure metal is taken as cathode and a suitable salt of the
metal to be purified in aqueous solution is taken as an electrolyte. The impure
metal enters the solution from anode and then gets deposited on cathode. The
impurities remain in the solution.
In addition, the metals (in fact, metalloids) like silicon, germanium, etc. which are needed in ultrapure state for certain applications are obtained by zone refining method.
In addition, the metals (in fact, metalloids) like silicon, germanium, etc. which are needed in ultrapure state for certain applications are obtained by zone refining method.
Write a note in detail : Refining of Metals by
Electrochemical Method.
ANS : Metals like zinc, lead, aluminium, copper, silver, gold, etc. are refined by this process.
A rod of impure metal is taken as anode and a strip of pure metal is taken as cathode. an aqueous solution of a simple or complex salt of the metal to be purified is taken as electrolyte. On passing electric current at suitable voltage, pure metal is deposited at the cathode. The impurities either remain in the solution or collect at the bottom of the anode as 'Anode Mud'.
For example, to obtain pure copper, impure copper rod is taken as anode, a strip of pure copper is taken as cathode and aqueous solution of copper sulphate is taken as the electrolyte.
The reactions taking place at both the electrodes are :
Crude copper contains very small amounts of iron, silver and gold. Iron dissolves in the solution whereas silver and gold collect at anode as anode mud and are obtained in the native state.
ANS : Metals like zinc, lead, aluminium, copper, silver, gold, etc. are refined by this process.
A rod of impure metal is taken as anode and a strip of pure metal is taken as cathode. an aqueous solution of a simple or complex salt of the metal to be purified is taken as electrolyte. On passing electric current at suitable voltage, pure metal is deposited at the cathode. The impurities either remain in the solution or collect at the bottom of the anode as 'Anode Mud'.
For example, to obtain pure copper, impure copper rod is taken as anode, a strip of pure copper is taken as cathode and aqueous solution of copper sulphate is taken as the electrolyte.
The reactions taking place at both the electrodes are :
Crude copper contains very small amounts of iron, silver and gold. Iron dissolves in the solution whereas silver and gold collect at anode as anode mud and are obtained in the native state.
Describe Extraction of aluminium from bauxite.
ANS :
CONCENTRATION OF BAUXITE [BAYER'S PROCESS] :
bauxite is concentrated by Bayer's process to obtain pure aluminium oxide (alumina).
Bauxite is first roasted by heating to convert ferrous oxide into ferric oxide. The ore is then dried, powdered and treated with 45% aqueous solution of caustic soda (sodium hydroxide) and is heated to about160°C in a closed vessel for 6 to 8 hours at 5 to 6 atmospheric pressure. Sodium aluminate is formed.
The insoluble impurities are filtered. Sodium aluminate is soluble in water and is obtained as filtrate. Sodium aluminate is then hydrolysed by adding excess water and constantly stirring it whereby gelatinous precipitates of aluminium hydroxide are obtained. To enhance the formation of Al(OH)3, some Al(OH)3 is added from outside as seedling.
The precipitates of Al(OH)3 are then washed repeatedly with water, dried and heated up to 1200°C.
Thus, 99.5% pure alumina (Al2O3) is obtained.
ELECTROLYSIS OF ALUMINIUM OXIDE [HALL-HAROULT PROCESS] :
A special electrolytic cell invented by 'Hall' and 'Haroult' is used to reduce alumina to aluminium metal.
Pure aluminium oxide is mixed with cryolite (Na3AlF6). The mixture is then melted in iron tank lined with carbon from inside. The carbon lining acts as cathode. The anode consists of a number of carbon rods which are dipped into the molten mass of Al2O3 and cryolite.
When electric current is passed, aluminium metal is obtained at the cathode and oxygen gas gets liberated at anode. This oxygen gas reacts with carbon anode to form carbon dioxide. Due to this the carbon anode is gradually consumed.
Molten aluminium metal being heavier than the electrolyte, is collected at the bottom of the tank.
ANS :
CONCENTRATION OF BAUXITE [BAYER'S PROCESS] :
bauxite is concentrated by Bayer's process to obtain pure aluminium oxide (alumina).
Bauxite is first roasted by heating to convert ferrous oxide into ferric oxide. The ore is then dried, powdered and treated with 45% aqueous solution of caustic soda (sodium hydroxide) and is heated to about160°C in a closed vessel for 6 to 8 hours at 5 to 6 atmospheric pressure. Sodium aluminate is formed.
The insoluble impurities are filtered. Sodium aluminate is soluble in water and is obtained as filtrate. Sodium aluminate is then hydrolysed by adding excess water and constantly stirring it whereby gelatinous precipitates of aluminium hydroxide are obtained. To enhance the formation of Al(OH)3, some Al(OH)3 is added from outside as seedling.
The precipitates of Al(OH)3 are then washed repeatedly with water, dried and heated up to 1200°C.
Thus, 99.5% pure alumina (Al2O3) is obtained.
ELECTROLYSIS OF ALUMINIUM OXIDE [HALL-HAROULT PROCESS] :
A special electrolytic cell invented by 'Hall' and 'Haroult' is used to reduce alumina to aluminium metal.
Pure aluminium oxide is mixed with cryolite (Na3AlF6). The mixture is then melted in iron tank lined with carbon from inside. The carbon lining acts as cathode. The anode consists of a number of carbon rods which are dipped into the molten mass of Al2O3 and cryolite.
When electric current is passed, aluminium metal is obtained at the cathode and oxygen gas gets liberated at anode. This oxygen gas reacts with carbon anode to form carbon dioxide. Due to this the carbon anode is gradually consumed.
Molten aluminium metal being heavier than the electrolyte, is collected at the bottom of the tank.
At Cathode
2Al+3(aq) + 6e- → 2Al(l)
At Anode
C(s) + O-2 → CO(g) + 2e-
C(s) + 2O-2 → CO2(g) + 4e-
2Al+3(aq) + 6e- → 2Al(l)
At Anode
C(s) + O-2 → CO(g) + 2e-
C(s) + 2O-2 → CO2(g) + 4e-
Describe extraction of iron using Blast Furnace.
ANS : Blast furnace is used to obtain iron metal from haematite (Fe2O3). A proper mixture of haematite, coke and calcium carbonate is added to the blast furnace from the top and hot air is blown from the bottom of the blast furnace.
ANS : Blast furnace is used to obtain iron metal from haematite (Fe2O3). A proper mixture of haematite, coke and calcium carbonate is added to the blast furnace from the top and hot air is blown from the bottom of the blast furnace.
0.At the bottom of the furnace coke burns in air
to form carbon dioxide and large amount of heat is produced.
C(s) + O2(g) → CO2(g) + Heat
1.In the center of the furnace carbon dioxide
reacts with hot coke and forms carbon monoxide.
CO2(g) + C(s) → 2CO(g)
2.In the upper part of the furnace the
temperature is 400°C to 700°C. Here the reaction between iron oxide and carbon
monoxide takes place in three stages and iron oxide is reduced to iron.
3Fe2O3(s) + CO(g) → 2Fe3O4(s) + CO2(g)
Fe3O4(s) + CO(g) → 3FeO(s) + CO2(g)
FeO(s) + CO(g) → Fe(s) + CO2(g)
Fe3O4(s) + CO(g) → 3FeO(s) + CO2(g)
FeO(s) + CO(g) → Fe(s) + CO2(g)
Due to large amount of heat produced in the furnace, limestone (CaCO3) decomposes to calcium oxide. Calcium oxide reacts with sand (SiO2) present as impurity in the ore and forms calcium silicate known as SLAG.
CaO(s) + SiO2(s) → CaSiO3(l)[slag]
Both slag and iron ore are in molten state due to very high temperature in the lower part of the furnace. Both are collected separately from the bottom of the furnace. Once started, the blast furnace works for many months.
Mention physical properties of metals.
ANS :
ANS :
·
Metals have lustrous surface which can be polished.
·
Metals are solid (exception : gallium and mercury are in
liquid state).
·
Metals are heavy (exception : sodium, potassium, magnesium
and aluminium are comparatively lighter).
·
Metals are hard and cannot be cut with knife (exception :
sodium, potassium and lead are soft and can be cut with knife).
·
Metals are good conductors of heat and electricity (exception
: lead and mercury are bad conductors of heat).
·
Metals are ductile, i.e., they can be drawn in to wires.
·
Metals are malleable, i.e., they can be hammered and sheets
can be prepared from them.
·
Metals have high melting points and boiling points. The
melting point of iron is 1539°C.
·
Metals possess high tensile strength.
·
Most of the metals are sonorous, i.e., they produce sounding
noise on collision.
·
Metals can be mixed with other metals and nonmetals to form
alloys.
Write a note on chemical properties of metals
OR
Explain how metals react with
oxygen, water, dilute acids, chlorine and hydrogen giving examples.
ANS : Metals are electropositive elements since they have a tendency to lose electrons and form positively charged ions.
REACTION WITH OXYGEN : Metals form oxides with oxygen. These oxides are basic in nature because when dissolved in water they form alkaline solutions. For example, sodium reacts with oxygen to give sodium oxide.
ANS : Metals are electropositive elements since they have a tendency to lose electrons and form positively charged ions.
REACTION WITH OXYGEN : Metals form oxides with oxygen. These oxides are basic in nature because when dissolved in water they form alkaline solutions. For example, sodium reacts with oxygen to give sodium oxide.
4Na(s) + O2(g) → 2Na2O(s)
Sodium oxide reacts with water to form sodium hydroxide ( an alkali).
Na2O(s) + H2O(l) → 2NaOH(aq)
Oxides of metals like aluminium and zinc are called AMPHOTERIC OXIDES as they exhibit both acidic and basic behaviour.
REACTION WITH WATER : Metals form either metal oxides or hydroxides when they react with water. Hydrogen gas is evolved in both cases.
Highly reactive metals like sodium and potassium react violently with cold water.
2Na(s) + 2H2O(l) → 2NaOH(aq) + H2(g)
Magnesium reacts slowly with cold water but rapidly with hot boiling water.
Mg(s) + 2H2O(l) → Mg(OH)2(aq) + H2(g)
Zinc and iron react with steam only (i.e., they do not react with cold or warm water).
Zn(s) + H2O(g) → ZnO(s) + H2(g)
3Fe(s) + 4H2O(g) → Fe3O4(s) + 4H2(g)
3Fe(s) + 4H2O(g) → Fe3O4(s) + 4H2(g)
Less reactive metals like lead, copper, silver and gold do not react with water at all.
REACTION WITH DILUTE ACIDS : Depending on their reactivity, metals react with dilute acids at different rates and liberate hydrogen gas.
Mg(s) + 2HCl(aq) → MgCl2(aq) + H2(g)
2Al(s) + 6HCl(aq) → 2AlCl3(aq) + 3H2(g)
2Al(s) + 6HCl(aq) → 2AlCl3(aq) + 3H2(g)
Copper does not react with dilute acids.
REACTION WITH CHLORINE : Metals react with chlorine to form metal chlorides which are ionic compounds.
2Na(s) + Cl2(g) → 2NaCl(s)
REACTION WITH HYDROGEN : All metals do not combine with hydrogen. Only reactive metals like sodium, potassium and calcium form their hydrides with hydrogen.
2Na(s) + H2(g) → 2NaH(s)
Ca(s) + H2(g) → CaH2(s)
2K(s) + H2(g) → 2KH(s)
Ca(s) + H2(g) → CaH2(s)
2K(s) + H2(g) → 2KH(s)
Write a note on Corrosion.
ANS :
ANS :
·
Corrosion is a process in which rust is formed on metal
surface when it is exposed to air, water or moisture. Oxygen of air, carbon
dioxide and moisture(water) are mainly responsible for corrosion.
·
Some of the metals undergo corrosion. For example : (i) Green
coloured salt is formed on copper and brass vessels.
(ii) Iron becomes rusted because of its reaction with oxygen of air. Iron rust is mainly iron oxide (Fe2O3.xH2O) which is red in colour.
(ii) Iron becomes rusted because of its reaction with oxygen of air. Iron rust is mainly iron oxide (Fe2O3.xH2O) which is red in colour.
·
Corrosion results in wastage of billions of rupees. Therefore,
it is better to prevent corrosion.
PREVENTION OF CORROSION :
·
Rusting of iron can be prevented by covering its surface with
a paint. This method is less effective because rusting starts again if the
paint is removed from some part.
·
Iron is galvanised by applying a thin layer of more active
zinc on its surface. Zinc prevents rusting effectively. Even if a small amount
of zinc is removed from the surface, rusting does not start again because zinc
spreads to cover the surface and prevents corrosion.
·
To prevent corrosion of iron plates of steamers, blocks of
more reactive metals like magnesium or zinc are combined with iron plates and
then allowed to come in contact with seawater. Here iron plates act as cathode
and magnesium(or zinc) act as anode because the oxidation potential of iron is
less. The magnesium/zinc blocks get corroded in seawater so they are replaced
periodically.
·
Corrosion can also be prevented by using suitable chemical
inhibitors which form a chemical bond with the metal surface and prevent
corrosion.
·
A layer of enamel applied on the metal can prevent corrosion.
Write a note on Alloys.
ANS : An alloy is a homogeneous solid solution of two or more metals or a metal and a nonmetal. An alloy is generally prepared by heating the mixture of its constituents to molten state and then cooling it at room temperature. An alloy is prepared to obtain material with desired properties because the properties of constituents of an alloy are modified to some extent. Sometimes the melting point of an alloy is lower than that of the constituents. For example, solder is an alloy of lead and tin. Its melting point is lower than that of lead and tin and it is used in soldering of electrical wires. [Table to be posted]
Pure gold cannot be used to make jewellery as it is very soft. To make it hard, it is generally alloyed with copper or silver. The purity of gold is expressed in CARATS. Pure gold is 24 carats. 18 carat gold means it contains 18 parts of gold in 24 parts by weight of the alloy.
ANS : An alloy is a homogeneous solid solution of two or more metals or a metal and a nonmetal. An alloy is generally prepared by heating the mixture of its constituents to molten state and then cooling it at room temperature. An alloy is prepared to obtain material with desired properties because the properties of constituents of an alloy are modified to some extent. Sometimes the melting point of an alloy is lower than that of the constituents. For example, solder is an alloy of lead and tin. Its melting point is lower than that of lead and tin and it is used in soldering of electrical wires. [Table to be posted]
Pure gold cannot be used to make jewellery as it is very soft. To make it hard, it is generally alloyed with copper or silver. The purity of gold is expressed in CARATS. Pure gold is 24 carats. 18 carat gold means it contains 18 parts of gold in 24 parts by weight of the alloy.
ANSWER
IN SHORT:
1.
Which metals are available in free state in nature ?
ANS : Less reactive metals like gold, silver and copper are available in free state in nature.
ANS : Less reactive metals like gold, silver and copper are available in free state in nature.
2.
Why are metals like sodium, potassium and aluminium not
available in free state in nature ?
ANS : Metals like sodium, potassium and aluminium are not available in free state in nature because they are more reactive metals.
ANS : Metals like sodium, potassium and aluminium are not available in free state in nature because they are more reactive metals.
3.
Define : Mineral.
ANS :Elements as well as elements in the form of their compounds which are available in earth's crust are known as minerals. OR A naturally occuring compound in which the metal exists either in native state or combined state is called mineral.
ANS :Elements as well as elements in the form of their compounds which are available in earth's crust are known as minerals. OR A naturally occuring compound in which the metal exists either in native state or combined state is called mineral.
4.
Define : Ore.
ANS : A metal in the form of its compounds with other elements and/or their compounds is known as an ore. OR A mineral from which a metal can be extracted economically and conveniently is called an ore.
ANS : A metal in the form of its compounds with other elements and/or their compounds is known as an ore. OR A mineral from which a metal can be extracted economically and conveniently is called an ore.
5.
In what form are ores/minerals generally found in nature ?
ANS : Generally, ores/minerals are found in the form of oxides, silicates, sulphides, carbonates, phosphates, etc.
ANS : Generally, ores/minerals are found in the form of oxides, silicates, sulphides, carbonates, phosphates, etc.
6.
Write names of two ores of copper.
ANS : Cuprite and malachite are two ores of copper.[Also, copper pyrite and copper glance are ores of copper.]
ANS : Cuprite and malachite are two ores of copper.[Also, copper pyrite and copper glance are ores of copper.]
7.
Write the formula of siderite and gypsum.
ANS : The formula of siderite is FeCO3 and that of gypsum is CaSO4.2H2O.
ANS : The formula of siderite is FeCO3 and that of gypsum is CaSO4.2H2O.
8.
Mention three main spheres of earth.
ANS : Three main spheres of earth are : Lithosphere, Hydrosphere and Atmosphere.
ANS : Three main spheres of earth are : Lithosphere, Hydrosphere and Atmosphere.
9.
Which elements are found in lithosphere ?
ANS : Lithosphere mainly consists of oxides and sulphides of elements like aluminium, sodium, iron, copper, calcium, etc.
ANS : Lithosphere mainly consists of oxides and sulphides of elements like aluminium, sodium, iron, copper, calcium, etc.
10.
Which elements are found in the liquid sphere (hydrosphere)
of the earth ?
ANS : Hydrosphere contains elements like chlorine, bromine, sodium, potassium, magnesium in the form of their compounds.
ANS : Hydrosphere contains elements like chlorine, bromine, sodium, potassium, magnesium in the form of their compounds.
11.
Define : Metallurgy.
ANS : The process of extracting pure metals from their ores and refining them for commercial use is called metallurgy.
ANS : The process of extracting pure metals from their ores and refining them for commercial use is called metallurgy.
12.
What is gangue (or matrix) ?
ANS : The impurities such as sand, stones, earthy matter, etc. present in the ore are called gangue (or matrix).
ANS : The impurities such as sand, stones, earthy matter, etc. present in the ore are called gangue (or matrix).
13.
On what does the process of metallurgy depend ?
ANS : The process of metallurgy depends on (i) the nature of the metal to be extracted (ii) the type of impurity present in the ore.
ANS : The process of metallurgy depends on (i) the nature of the metal to be extracted (ii) the type of impurity present in the ore.
14.
Mention the equipment used for grinding of ore.
ANS : Ball mill and Stamp mill are equipment used for grinding ore.
ANS : Ball mill and Stamp mill are equipment used for grinding ore.
15.
What is concentration of ore ?
ANS : The process of removal of impurities from an ore is called concentration of ore.
ANS : The process of removal of impurities from an ore is called concentration of ore.
16.
Mention the methods employed for concentration of ore.
ANS : Methods employed for concentration of ore are :
ANS : Methods employed for concentration of ore are :
·
Froth floatation process
·
Magnetic Separation method
·
Centrifugal method
·
Chemical method.
17.
What is the principle of froth floatation process ?
ANS : The froth floatation process is based on the principle of difference in wetting properties of the ore and the gangue particles with water and oil.
ANS : The froth floatation process is based on the principle of difference in wetting properties of the ore and the gangue particles with water and oil.
18.
What is the principle of magnetic separation method ?
ANS : Magnetic separation method uses the principle of difference in the magnetic properties of the ore and the gangue.
ANS : Magnetic separation method uses the principle of difference in the magnetic properties of the ore and the gangue.
19.
What is the principle of centrifugal method ?
ANS : The principle of centrifugal method is the difference in the densities of ore and the impurities.
ANS : The principle of centrifugal method is the difference in the densities of ore and the impurities.
20.
Which type of ores are concentrated by chemical method ?
ANS : Ores of highly reactive metals are concentrated by chemical method.
ANS : Ores of highly reactive metals are concentrated by chemical method.
21.
Define : Roasting.
ANS : Heating a substance (concentrated ore) in presence of oxygen under controlled atmospheric pressure is called roasting.
ANS : Heating a substance (concentrated ore) in presence of oxygen under controlled atmospheric pressure is called roasting.
22.
What is the purpose of roasting in metallurgy ?
ANS : In metallurgy, the purpose of roasting is the conversion of sulphide ore into oxide besides the removal of volatile impurities.
ANS : In metallurgy, the purpose of roasting is the conversion of sulphide ore into oxide besides the removal of volatile impurities.
23.
What is calcination ?
ANS : Calcination is the process in which the concentrated ore is heated strongly in absence of air.
ANS : Calcination is the process in which the concentrated ore is heated strongly in absence of air.
24.
What is smelting ?
ANS : Smelting is a process of heating an ore strongly to obtain metal in molten state by reduction.
ANS : Smelting is a process of heating an ore strongly to obtain metal in molten state by reduction.
25.
What is reduction ?
ANS : The conversion of metal oxide into metal is called reduction.
ANS : The conversion of metal oxide into metal is called reduction.
26.
On what does the method of reduction depend ?
ANS : The method of reduction depends on the nature and reactivity of the metal.
ANS : The method of reduction depends on the nature and reactivity of the metal.
27.
Mention some reducing agents.
ANS : Carbon, carbon monoxide, alumunium, etc are examples of reducing agent.
ANS : Carbon, carbon monoxide, alumunium, etc are examples of reducing agent.
28.
What is taken as anode in electrolytic refining of a metal ?
ANS : A rod of impure metal is taken as anode in electrolytic refining of a metal.
ANS : A rod of impure metal is taken as anode in electrolytic refining of a metal.
29.
By which method are ultrapure elements obtained ?
ANS : Ultrapure elements are obtained by Zone refining (fractional separation) method.
ANS : Ultrapure elements are obtained by Zone refining (fractional separation) method.
30.
What is the use of van Arkel's method ?
ANS : van Arkel's method is used for obtaining ultrapure elements like germanium and uranium.
ANS : van Arkel's method is used for obtaining ultrapure elements like germanium and uranium.
31.
What acts as cathode in electrolytic reduction of Al2O3 ?
ANS : Carbon (graphite) lining inside the iron tank acts as cathode in electrolytic reduction of Al2O3.
ANS : Carbon (graphite) lining inside the iron tank acts as cathode in electrolytic reduction of Al2O3.
32.
What works as electrolyte in Hall-Haroult cell ?
ANS : The mixture of molten Al2O3 and Na3AlF6 works as electrolyte in Hall-Haroult cell.
ANS : The mixture of molten Al2O3 and Na3AlF6 works as electrolyte in Hall-Haroult cell.
33.
What is slag ?
ANS : Calcium silicate formed from sand present in iron ore and calcium oxide produced by decomposition of calcium carbonate is called SLAG.
ANS : Calcium silicate formed from sand present in iron ore and calcium oxide produced by decomposition of calcium carbonate is called SLAG.
34.
Which metals can liberate H+ ions from aqueous solutions
of acids ?
ANS : More reactive metals or the metals on the left side of hydrogen in the reactivity series can liberate H+ ions from aqueous solutions of acids.
ANS : More reactive metals or the metals on the left side of hydrogen in the reactivity series can liberate H+ ions from aqueous solutions of acids.
35.
What is emf (electromotive force) ?
ANS : The cell potential of an electrochemical cell measured in comparison to standard hydrogen electrode is known as electromotive force (emf) of that cell.
ANS : The cell potential of an electrochemical cell measured in comparison to standard hydrogen electrode is known as electromotive force (emf) of that cell.
36.
What is emf series ?
ANS : The series prepared by arranging oxidation potentials (emfs) of half cells (electrodes) in descending order is called emf series.
ANS : The series prepared by arranging oxidation potentials (emfs) of half cells (electrodes) in descending order is called emf series.
37.
What is reactivity series of metals ?
ANS : The arrangement of metals in order of their decreasing reactivities is called reactivity series of metals.
ANS : The arrangement of metals in order of their decreasing reactivities is called reactivity series of metals.
38.
Mention the most malleable and ductile metals.
ANS : Gold and silver are the two most malleable and ductile metals.
ANS : Gold and silver are the two most malleable and ductile metals.
39.
What do we mean by malleability ?
ANS : Malleability means capacity to be hammered into very thin sheet without being broken.
ANS : Malleability means capacity to be hammered into very thin sheet without being broken.
40.
What do we mean by ductility ?
ANS : Ductility is a property of a substance (metal) by which it can be drawn into thin wires.
ANS : Ductility is a property of a substance (metal) by which it can be drawn into thin wires.
41.
Mention three metals having low density.
ANS : Sodium, potassium and magnesium are metals with low density.
ANS : Sodium, potassium and magnesium are metals with low density.
42.
Why are metals electropositive ?
ANS : Metals are electropositive because their atoms can lose electrons easily to form positively charged ions.
ANS : Metals are electropositive because their atoms can lose electrons easily to form positively charged ions.
43.
What is the nature of the oxides of metals ?
ANS : Oxides of metals are basic in nature.
ANS : Oxides of metals are basic in nature.
44.
Why are the oxides of metals basic ?
ANS : Oxides of metals are basic because they form alkaline solutions with water.
ANS : Oxides of metals are basic because they form alkaline solutions with water.
45.
What do we mean by amphoteric oxides ?
ANS : Those oxides of metals which show both acidic as well as basic behaviour in aqueous solutions are called amphoteric oxides.
ANS : Those oxides of metals which show both acidic as well as basic behaviour in aqueous solutions are called amphoteric oxides.
46.
Mention some metals that do not react with water at all.
ANS : Lead, copper, silver and gold are the metals that do not react with water at all.
ANS : Lead, copper, silver and gold are the metals that do not react with water at all.
47.
Why are metals reducing agents ?
ANS : Metals are reducing agents because they give electrons to other element and in turn get oxidised to respective positive ion.
ANS : Metals are reducing agents because they give electrons to other element and in turn get oxidised to respective positive ion.
48.
What is corrosion ?
ANS : The destruction of metal due to its exposure to environmental factors like air and moisture is called corrosion of metals.
ANS : The destruction of metal due to its exposure to environmental factors like air and moisture is called corrosion of metals.
49.
What is rust chemically ?
ANS : Chemically rust is a mixture of ferric oxide and ferric hydroxide.[Fe2O3.xH2O].
ANS : Chemically rust is a mixture of ferric oxide and ferric hydroxide.[Fe2O3.xH2O].
50.
What is galvanization ?
ANS : The process of depositing a thin layer of zinc metal on iron is called galvanization.
ANS : The process of depositing a thin layer of zinc metal on iron is called galvanization.
51.
What is an alloy ?
ANS : An alloy is a homogeneous solid solution (mixture) of two or more metals or a metal and a nonmetal.
ANS : An alloy is a homogeneous solid solution (mixture) of two or more metals or a metal and a nonmetal.
52.
Mention the constituents of stainless steel.
ANS : Iron, nickel and chromium are the constituents of stainless steel.
ANS : Iron, nickel and chromium are the constituents of stainless steel.
53.
Which unit is used to express the purity of gold ?
ANS : Carat is used to express the purity of gold.
ANS : Carat is used to express the purity of gold.
54.
Write the classification of elements.
ANS : Elements are classified as metals, nonmetals amd semimetals (metalloids).
ANS : Elements are classified as metals, nonmetals amd semimetals (metalloids).
55.
How can special type of steel be obtained ?
ANS : Special type of steel can be obtained by heating iron red hot in absence of air with pieces of leather (animal skin).
ANS : Special type of steel can be obtained by heating iron red hot in absence of air with pieces of leather (animal skin).
56.
In which forms of compounds is an ore obtained in nature ?
ANS : An ore is obtained in the form of oxide, carbonate, sulphide, silicate, sulphate, etc in nature.
ANS : An ore is obtained in the form of oxide, carbonate, sulphide, silicate, sulphate, etc in nature.
57.
Dolomite is a mineral of which metal ?
ANS : Dolomite is a mineral of calcium.
ANS : Dolomite is a mineral of calcium.
58.
From where in India is the mineral of aluminium obtained ?
ANS : The mineral of aluminium (bauxite) is obtained from the states of Bihar, Gujarat, Madhya Pradesh and Rajasthan.
ANS : The mineral of aluminium (bauxite) is obtained from the states of Bihar, Gujarat, Madhya Pradesh and Rajasthan.
59.
What is the importance of turpentine oil in froth floatation
process ?
ANS : In froth floatation process the importance of turpentine oil is that it selectively wets ore particles making them lighter and it forms lather (froth) containing those particles which can be easily taken out.
ANS : In froth floatation process the importance of turpentine oil is that it selectively wets ore particles making them lighter and it forms lather (froth) containing those particles which can be easily taken out.
60.
Which metals are obtained in their molten state ?
ANS : Metals obtained in molten state are tin, lead, bismuth, iron and aluminium.
ANS : Metals obtained in molten state are tin, lead, bismuth, iron and aluminium.
61.
Mention the type of electric charge on anode.
ANS : The electric charge on anode is positive.
ANS : The electric charge on anode is positive.
62.
Write the equation of the reaction taking place on inert
anode during electrolysis of molten NaCl.
ANS :
Cl-(l) → Cl + e-
Cl + Cl → Cl2(g)
ANS :
Cl-(l) → Cl + e-
Cl + Cl → Cl2(g)
63.
Which metals are used as semiconductors ?
ANS : Silicon, boron and germanium are used as semiconductors.
ANS : Silicon, boron and germanium are used as semiconductors.
64.
Which metals are obtained in ultrapure condition by van
Arkel's method ?
ANS : Metals like germanium and uranium are obtained in ultrapure condition by van Arkel's method.
ANS : Metals like germanium and uranium are obtained in ultrapure condition by van Arkel's method.
65.
Write the principle of zone refining (fractional
ultrapurification) method.
ANS : The zone refining process uses the principle of fractional crystallization.
ANS : The zone refining process uses the principle of fractional crystallization.
66.
Which method is used to obtain pure aluminium from alumina ?
ANS : Hall-haroult electrolytic method is used to obtain aluminium from alumina.
ANS : Hall-haroult electrolytic method is used to obtain aluminium from alumina.
67.
How can the comparison of reactivity of metals be done ?
ANS : The comparison of reactivity of metalscan be done by the reaction of dilute HCl with different metals and observing the rate of evolution of hydrogen gas.
ANS : The comparison of reactivity of metalscan be done by the reaction of dilute HCl with different metals and observing the rate of evolution of hydrogen gas.
68.
What will be the reaction when zinc metal is placed in a
solution of copper sulphate ?
ANS : When zinc metal is placed in a solution of copper sulphate the more reactive zinc displaces copper from its solution forming colourless solution of zinc sulphate containing brown granules of copper metal.
ANS : When zinc metal is placed in a solution of copper sulphate the more reactive zinc displaces copper from its solution forming colourless solution of zinc sulphate containing brown granules of copper metal.
69.
Write the equation of the reaction of sodium oxide with
water.
ANS :
Na2O(s) + H2O(l) → 2NaOH(aq)
ANS :
Na2O(s) + H2O(l) → 2NaOH(aq)
70.
Write an equation of the reaction between a metal and
hydrochloric acid.
ANS :
Mg(s) + 2HCl(aq) → MgCl2(aq) + H2(g)
OR
2Al(s) + 6HCl(aq) → 2AlCl3(aq) + 3H2(g)
ANS :
Mg(s) + 2HCl(aq) → MgCl2(aq) + H2(g)
OR
2Al(s) + 6HCl(aq) → 2AlCl3(aq) + 3H2(g)
71.
What is the chemical formula of rust ?
ANS : The chemical formula of rust is Fe2O3,Fe(OH)3 OR Fe2O3.xH2O
ANS : The chemical formula of rust is Fe2O3,Fe(OH)3 OR Fe2O3.xH2O
72.
What is galvanised iron ?
ANS : Iron with its surface covered by a thin layer of zinc metal to protect it from being rusted is called galvanised iron.
ANS : Iron with its surface covered by a thin layer of zinc metal to protect it from being rusted is called galvanised iron.
73.
What is anode (anodic) mud ?
ANS : The impurities(less reactive metals) that settle down at the bottom of the anode during electrolytic refining of a metal are collectively called anode mud.
ANS : The impurities(less reactive metals) that settle down at the bottom of the anode during electrolytic refining of a metal are collectively called anode mud.
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