Alkali and alkaline earth metal

1. Metal
 Metals and metallurgical principle
Alkali metal and compounds
Alkaline earth metals and compounds
By Govinda pathak

3. Metals and metallurgical principle:
NEB syllabus
Characteristics of metals, non metals and metalloids.
Minerals and ores
Important minerals deposit in Nepal
Different processes involved in metallurgical process.
Concentration
Calcination and roasting
Smelting (carbon reduction)
Thermite process
Electrochemical reduction
Refining of metals ( Poling, electrochemical refining etc.)

4. Comparative study of metal non metal and metalloid
Metal Non-metal Metalloid
1. They are usually solid in
nature.
Exception: mercury is liquid at
room temperature
1. They do exist usually in all
three states
1. Those elements which can
show some properties of
metals and some properties of
nonmetals.
2. They are good conductor of
heat and electricity.
2. They are poor conductor of
heat and electricity
Exception: Graphite
conducts electricity
2. These are also called border
line elements because they lie
in between metal and non-
metal in the periodic table. E.g.
Arsenic (As), Sb, Ge, etc.
3. They generally have high
density.
3. They generally have low
density.
3. They can form acidic oxides
like non-metals and can
conduct heat and electricity
like metals.
4. They are malleable and
ductile in nature. 4. They are brittle in nature.
4.They are neither malleable
nor ductile but sometimes

5. 5. They contain less number of
electrons in outermost shell so
they can easily loose electron
and become electropositive.
5. Non-metals contains more
electron in their outermost
shell so they easily gain
electron and become
electronegative.
6 Metals can easily get oxidized.
6 Non-metals can easily be
reduced.
5.They are oxidized by nitric
acid .
7 They are reducing agent. 7 They are oxidizing agent.
8. They form basic oxide.
Exception: ZnO and Al2O3 are
amphoteric in nature.
8. They form the acidic oxide.
6.They form hydrides with
hydrogens like AsH3 , SbH3 and
these are gases.
9. During electrolysis, they
deposit at Cathode.
9. During electrolysis, they
deposit at the anode.

6. Minerals and ores:
• The naturally occurring substances which contain metal in it are known as
minerals.
• Example: Al2O3SiO2.2H2O (Clay)
• The minerals from which we can extract the metal in economical as well as
convenient way are known as ores.
• Example: Bauxite Al2O3.2H2O
Note: from Bauxite (Al2O3. 2H2O) metal Aluminum can be extracted
economically because it only contains Aluminum. So, it is an ore.
But clay (Al2O3. 2SiO2. 2H2O) also contains the Aluminium but there is less
presence of Aluminium in it. So, we cannot extract Aluminium from it
economically. So, it is a mineral.
1) Differentiate between mineral and ore?
2) All ores are minerals but the reverse may not be truth. Justify with

7. Alloy
They are the homogeneous mixture of metals with metals or metals with
non-metals. The homogeneous mixture of non-metal and non-metal is not
called alloy. Basically, alloys are of two types and they are:
 Ferrous Alloys.
 Non- Ferrous Alloys.
Ferrous alloys:
Those alloys which contain Iron in it are called ferrous alloys.
E.g. Steel (Fe+ C), stainless steel (Fe+ Ni+ Cr+ C), etc.
Non- ferrous alloys:
Those alloys which do not contain Iron in it are known as non-ferrous
alloys.
E.g. Brass (Cu+ Zn), Bronze (Cu+ Sn)

8. Importance of Alloys:
 They are less rusting in nature in comparison to the pure metals. So, using
alloys we can save the loss from rusting.
Alloys are stronger than metal i.e. by making alloys we can increase the
mechanical strength of metals.
Alloys are useful for making colorful utensils and materials i.e. we can import
color if we make the alloy.
Amalgam
The homogeneous mixture of Mercury with metal is known as amalgam.
Mercury is in liquid form so by dissolving metal on Mercury we can obtain
an Amalgam.
E.g. Hg+ Na, Na-Hg [Sodium amalgam],Na/Hg
Hg+Cu,Cu.Hg[Copper amalgam],Cu/Hg
Note: metals like Iron (Fe), Cobalt (Co) and Nickel(Ni) don’t form amalgam
because they do not dissolve in Mercury.

9. Uses of Amalgam:
 Copper amalgam is used for filling the cavity in teeth.
 Sodium amalgam (NaHg) is used as reducing agent instead of
Sodium (Na).
EXISTENCE OF METAL
Depending upon the reactivity of metal they can either exist in combined
state or in free State. Those metals which are highly reactive in nature
are located in top position of electrochemical series and non-reactive
metals are in bottom of the electrochemical series. Metals like Na, K, Ca
are most reactive and they combine with most reactive non-metals i.e.
halides. Similarly, metals like Fe, Mg, Al, etc. exits in oxides form. Similarly,
Cu, Zn, Pb, etc. exist in sulphide form and Au, Ag, Pt exist in Free State.
Why are metals generally not found in free(native) state? Give examples.

10. Metallurgy:
The branch of science that deals with the study of extraction and purification
of metal is known as Metallurgy. Occurrence of minerals in
Nepal(learn yourself)
Different steps involved in metallurgical process.
Metallurgical process involves following steps.
1. Mining
2. Crushing and pulverization
3. Concentration
4. Preliminary treatment (calcination or roasting)
5. Reduction
6. Purification or refining

11. 1. Mining
The collection of Ore from the mines is mining. It is 1st step of Metallurgy.
2. Crushing and Pulverization
The process of converting big lumps of ore into smaller pieces by using crush
mill is known as crushing. The process of changing crushed ore into a fine
powder by using ball mill is known as pulverization.
3. Concentration of the ore.
This is the method of removing impurities present in powder ore in order to
increase the extent of ore. Depending upon the nature of ore and impurities
present on given ore concentration can be carried out by following ways:
a. Magnetic separation:
If one of impurities or ore is magnetic and another is non-magnetic then such
types of ores can be concentrated by using electromagnetic separation. During
this process powdered ore is transferred into the rotating belt fitted with rotator or
wheel where one of the rotator is magnetic in nature.

12. On passing the ore in rotating belt magnetic particles will be attracted by
magnetic rotator collected near the rotator. Whereas non-magnetic particles
will be collected away from rotator. During concentration of tin stone (SnO2)
iron impurities present can be separated by this method.
Fig: Magnetic separation
Gangue or Matrix: Unwanted earthy impurities present in the powder ore.

13. a) :
b. Gravity separation:
If the density of the impurities and ore
is different than such types of
impurities can be separated out by
using gravity separation method.
During the separation given ore is
transferred into the vessel where
stream of water is passed from the
bottom. Inside the vessel lighter
impurities will be washed away with
water whereas heavier ore particles get
settled down at bottom. Generally,
oxide and hydroxide ore can be
concentrated by this method. E.g.
Bauxite ore of aluminum, Hematite or
Magnetite ore of Iron etc.
Fig: Gravity Separation
Differentiate between magnetic separation and Gravity
separation. (Yourself)

14. c. Froth flotation method:
 This is the specific method for concentration of Sulphides ore like PbS (Galena),
ZnS (Zinc blend), CuFeS2 (copper pyrite), HgS (Cinnabar).
 This method is based on the principle that solids have the different attraction
towards liquids.
 In this method, powdered ore is mixed
with water along with little amount of oil
like a pine oil or Eucalyptus oil in a
vessel known as flotation. On passing a
compressed air inside a vessel
agitation takes place inside and
vigorous bubbling occurs. Sulphide ore
which get preferentially wetted with oil
forms bubbles and collected at a
surface as a scum or forth whereas
impurities which get preferentially
wetted with water get settled down at a
bottom of vessel from a forth one can Fig: Froth flotation

15. d. Leaching
This is a chemical method of concentration of ore.In this method powdered
ore is treated with suitable chemical (Acid or Base) so that metallic portion
present in given ore get dissolved with chemical but impurities don’t get
dissolve. By filtration impurities can be separated as a residue while a
filtrate will contain the metallic portion. From filtrate concentrated ore can
be recovered by suitable chemical technique like precipitation. Generally,
ores of Aluminum, gold and silver can be concentrated by leaching.
For example- Bauxite is treated with conc. NaOH solution, aluminium oxide
is dissolved leaving behind insoluble impurities which are removed by
filtration.

16. 4. Preliminary treatment:
 The process of extraction of metal from the concentrated ore
depends upon the nature of the ore as well as the nature of
impurities present in the ore. Before the concentrated ore is
subjected to final metallurgical operations in order to get the metal
in the free state, the preliminary chemical treatment may be
necessary. The objective of this preliminary chemical treatment is:
(a) to get rid of impurities which would cause difficulties in the later
stages; and
(b) to convert the ore into oxide of the metal because it is easier to
reduce an oxide than the carbonate or sulphide.
 The processes employed for preliminary treatment are calcination
and roasting.

17. Calcination:
It is the process of heating a concentrated ore in the absence or
little supply of air below the melting point of ore.
It is mainly carried out for hydroxides, carbonate and nitrates
ores.
Decomposition of ore may take place.
ZnCO3 → ZnO + CO2
During calcination following changes takes place.
a. Moisture gets removed.
b. Volatile impurities gets removed.
c. Water of crystallization gets removed
Al2O3.2H2O → Al2O3+ 2H2O

18. Roasting:
It is the process of heating a concentrated ore in the presence of air
below the melting point of ore.
It is mainly carried out for sulphide ores
Oxidation of ore takes place
2ZnS+ 3O2 → 2ZnO+ 2SO2
PbS+ O2 → PbO+ SO2
 During roasting following changes take place
a. Moisture volatile impurities and organic matters get removed.
b. Elements like S, P, As etc. gets oxidized.
S+ O2 → SO2
4P+ 5O2 →2P2O5
As+ O2 → As2O3

19. Calcination and roasting is carried in reverberatory furnace.
Question : Differentiate between Calcination and Roasting. ( VVVVIMP)

20. 5) REDUCTION/ EXTRACTION OF METAL FROM METALLIC OXIDE
Metals can be extracted from metallic oxide removing oxygen present in them.
Such process of removal of oxygen with the help of suitable reducing agent is
known as reduction.
 Depending upon the nature of metal, reduction can be carried out by chemical
method or electrolytic method.
There are different types of reduction which are:
a) Reduction with Carbon: (smelting) vvvimp
• Metals which lies in central or lower position in electrochemical series can be
extracted by using carbon as a reducing agent. In this method calcined or
roasted ore is mixed with Carbon (as a source of Carbon we can use coke, coal
or charcoal) along with suitable flux. On providing a sufficient heat, reduction
proceeds and metal is obtained in a molten state. So, this method is also
known as smelting. Flux combines with impurities(refractory impurities)
resulting a slag which also exist in molten state. Taking an advantage of
immiscibility of slag with metal, Slag can be removed easily and almost pure
metal is obtained.
What is reduction in metallurgy?

21. • Fe2O3+ C → Fe+ CO
• ZnO+ C→ Zn+ CO
• SnO2+ C→ Sn+ CO
 Refractory impurities get removed with flux resulting a slag.
 E.g. During extraction of Fe, an ore may contain CaO as a refractory impurity
so acidic flux like SiO2 is added for the removal of impurity.
CaO (RI)+ SiO2(flux)→ CaSiO3(slag)
Limitations:
Highly reactive metals like Na, K, Ca can not be extracted from this method.
Metal can’t be extracted from metallic oxide in which oxygen has the strong
affinity with metal than with Carbon.

22. b) Reduction with Aluminium (Aluminothermite process)
Metallic oxides in which Oxygen has strong affinity with metal than Carbon,
such type of oxides can’t be reduced by Carbon. So, aluminum which is
powerful reducing agent than carbon can be used as a reducing agent
instead of Carbon. Generally, metals like Manganese, Chromium and
Nickel used to be extracted by this method. In this method, calcined or
roasted ore is thoroughly mixed with Aluminum powder along with little
amount of Barium Peroxide (BaO2) and kept in a suitable crucible fitted
with magnesium ribbon. Heat energy required to initiate reduction is
supplied by burning of BaO2 and magnesium ribbon. Once the reduction is
started, heat is evolved inside a crucible because the reaction is
exothermic in nature. In this process also metal is obtained in molten state.
Examples:
3MnO2+4Al → 3Mn+ 2Al2O3+ Heat
Cr2O3+ 2Al → 2Cr+ Al2O3+ Heat

23. c) Electrolytic Reduction
Highly reactive metals like Na, K, and Ca etc. can’t be extracted from their oxide by
chemical method of reduction because, in order to reduce their oxide there is necessity
of huge amount of heat and at very high temperature these metals form some undesired
products. Extraction of such metal can be done by carrying out an electrolysis of molten
salt. During electrolytic reduction aqueous solution of salt can’t be used because
moisture is easily captured by metals and ferrous hydroxide, after electrolysis of molten
salt metal is collected at cathode.
• E.g. Na can be extracted by electrolysis of molten NaCl. During this process, Na is
collected from the cathode.
NaCl → Na++ Cl -
• At cathode: Na++ e- → Na
• At anode: 2Cl - → Cl2 (gas) + 2e-

24. Carbon reduction process (smelting) Alumino thermite process
1. The process of extracting metal by
fusion of its oxide ore with carbon is
called carbon reduction process.
1. The process of reduction of metal oxide to
metal with the help of aluminium powder
as reducing agent is called alumino
thermite process.
2. In this process, metals like Zn, Sn, Pb,
etc. are extracted.
2. In this process, metals like Cr, Mn etc. are
extracted.
3. Here, blast of hot air is passed. 3. Here, magnesium ribbon is burnt.
4. This is endothermic process.
PbO + C + Heat Pb + CO
4. This is exothermic process.
Cr2O3 + 2 Al Al2O3 + 2 Cr + Heat
5. This process can be done in 5. This process can be done in Thermite
Difference between smelting and alumino thermite process.

25. Difference between flux and slag
Flux Slag
1. Material which is added from
outside in the ore during the
process of smelting to remove
gangue is called flux.
1. Slag is a light, fusible and
waste material obtained
during the extraction of metal
by the chemical combination
of gangue and flux.
2. It may be acidic or basic, ie.
CaO (basic), SiO2 (acidic)
2. It is generally double
salt ie.,
SiO2 + CaO CaSiO3
(Gangue) (flux) (slag)
Why is flux important in metallurgy?

26. Difference between carbon reduction and electrolytic reduction
Carbon reduction Electrolytic reduction
1. Here carbon is used as reducing
agent. The roasted or calcinated ore is
mixed with coke (C) and suitable flux
in a blast furnace.
1. This reduction is suitable for the
extraction of alkali metals and
alkaline earth metals.
2. Generally oxide ore of metal is
reduced by carbon reduction process
into metal.
2. Generally sodium, potassium,
calcium, magnesium metals are
reduced to metal by electrolytic
process.

27. Difference between pyrometallurgy and electrometallurgy
Pyrometallurgy Electrometallurgy
The process of extraction of metal
from an ore by chemical
reduction at high temperature is
called pyrometallurgy.
Eg.,
Fe2O3 + C Fe + CO2
The process of extraction of metal
from an ore by electrolytic
reduction in the molten or
aqueous solution is called
electrometallurgy.
Eg.,
NaCl Na+ + Cl-
At cathode:
Na+ + e- Na

28. Gangue or Matrix
The unwanted earthy particles present in the ore are called Gangue. Eg.
Sand, acidic and basic impurities
Refractory Impurities
Those impurities which have the high melting point so that they cannot
melt easily are called refractory impurities. E.g. CaO, MgO, SiO2, etc.
Flux: Flux are the substances added for the removal of refractory
impurities.
Types of flux:
Acidic Flux: The flux used for the removal of basic impurities is known
as acidic flux. E.g. SiO2, Borax (Na2B4O7.10H2O)
CaO(RI)+ SiO2(flux) → CaSiO3 (Slag)
Basic flux: The flux used for the removal of acidic impurities is known as basic flux.
E.g. CaO, MgO, FeO, etc.

29. Slag
The resulting compound obtained after treating the refractory impurity with
suitable flux is called slag. The melting point of slag is low. So, it can be
fused easily.
6) Refining/ purification:
• Metals obtained by the chemical method of extraction is not in the pure state.
Following impurities may be associated with metals.
 Residual slag or flux
 Metals other than the desired one.
 Unreduced metallic ores.
 Elements like P, As, S , etc.
• In order to remove such types of impurities, metals should be purified.
Depending upon a nature of impurities following methods can be
applied for the purification:

30. a) Polling:
In this process molten metal is stirred with a pole of green wood. Hydro
carbon present in green wood acts as reducing agent so that oxide
impurities get reduced into respective metal. This method is specially
used for purification of Copper.
CuO+ C→ Cu+ CO
b) Electrolytic Refining:
This method is cheap and convenient. Metals like Cu, Ag, and Zn can
be refined electrolytically. The impure metal is made anode and a thin
strip of pure metal is made cathode in electrolytic cell. The cell is filled
with solution of suitable salt of concerned metal. On passing electricity,
pure metal gets deposited at cathode and the anode undergoes
dissolution. Insoluble impurities fall behind the anode in the form of
anode mud and soluble impurities go to the solution.

32. SOLVED QUESTIONMS:
1 What are refractory materials?
Ans: The materials which can withstand very high temperature without melting or
softening are called refractory materials. Dolomite (MgCO3.CaCO3), Magnesium
oxide (MgO), silica (SiO2), alumina (Al2O3) are typical refractory materials.
2 Explain ‘All the ores are minerals but not all the minerals are ores.’
Ans: Those minerals from which the metals may be extracted conveniently and
economically are called ores. So, the ores are a type of mineral e.g. Bauxite (Al2O3
2H2O) and clay (Al2O32SiO3.2H2O). Both are minerals of aluminium. But, Al can
be economically extracted from the former while Al is difficult to be obtained
from the later. Hence, the former is also called ore but the later cannot. Thus, all
the ores are minerals but all the minerals are not ore.

33. DO YOURSELF:
1 Alkali and alkaline earth metals can not be obtained by a chemical reduction
method. Explain.
2 What is flux? How are they useful?
3 What is meant by slag? Why is it important in metallurgy?
4 Name the process used for the concentration of sulphide ore.
5 Why do some metals occur in the native state?
6 Define calcination and roasting?
7 What is gangue? Classify it.
8 What is metallurgy? Mentions its various types.
9 Define an alloy. What are the properties imparted to metal by the alloying
process?
10 What is meant by metallurgy? Describe briefly the various methods employed for
the general extraction of metals from their ore.