Acid Bases and Salts study materials yes
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Acid,Bases
and Salts
ONE SHOT
CLASS -10th
Acid,Bases
and Salts
ONE SHOT
CLASS -10th
What you will get
❖Premium Lectures
❖Class notes
❖PYQs (chapterwise)
❖Competency based questions
❖Premium Lectures
❖Class notes
❖PYQs (chapterwise)
❖Competency based questions
3
Acid bases and salts
Acid bases and salts
What is an Acid
An acid is a hydrogen containing substance that iscapable
of donating a proton(hydrogen ion) to another substance.
Acidic solution turns blue litmus
paper into red.
Examples -HCl and HNO
3
Apart from the strong acid in our stomach, human
bodies are known to produce lactic acidwhile
exercising.
An acid is a hydrogen containing substance that iscapable
of donating a proton(hydrogen ion) to another substance.
Acidic solution turns blue litmus
paper into red.
Examples -HCl and HNO
3
Apart from the strong acid in our stomach, human
bodies are known to produce lactic acidwhile
exercising.
What is a Base
Bases are the chemical substances which have a bitter
taste, are soapy to touch and turn red litmus blue. It
dissolves in water to produce hydroxide ions (OH
-
)in
solutions.
Basic solution turns red litmus
paper into blue.
Examples -NaOH →Na(aq) + OH
-
Bases are the chemical substances which have a bitter
taste, are soapy to touch and turn red litmus blue. It
dissolves in water to produce hydroxide ions (OH
-
)in
solutions.
Basic solution turns red litmus
paper into blue.
Examples -NaOH →Na(aq) + OH
-
What are Alkalis
Bases that are soluble in water are called Alkalis.
Examples -Sodium hydroxide
(NaOH), Potassium hydroxide
(KOH), Calcium hydroxide
[Ca(OH)
2].
Bases that are soluble in water are called Alkalis.
Examples -Sodium hydroxide
(NaOH), Potassium hydroxide
(KOH), Calcium hydroxide
[Ca(OH)
2].
What are Salts
Salts are produced due to the reaction between acids and
bases.
Salts are produced due to the reaction between acids and
bases.
Chemical properties of acids and bases
Acid + Bases →Salt + Water
Acid + Metal
Acid + Metal Oxide
Acid + Metal Carbonate/Metal
bicarbonate
Acid + Bases →Salt + Water
Acid + Metal
Acid + Metal Oxide
Acid + Metal Carbonate/Metal
bicarbonate
Chemical properties of acids and bases
Acid + Bases →Salt + Water
Base + Metal
Base + Non -Metal Oxide
Acid + Bases →Salt + Water
Base + Metal
Base + Non -Metal Oxide
Reaction of Acid and Base with metals
Zn(s)+ H
2SO
4
(aq) →ZnSO
4
(aq)+ H
2
(g)
EXAMPLES
Acid + Metal →Salt + Hydrogen gas
NaOH(aq) + Zn(s)→Na
2ZnO
2
(aq)+ H
2
(g)
Zn(s)+ H
2SO
4
(aq) →ZnSO
4
(aq)+ H
2
(g)
EXAMPLES
Acid + Metal →Salt + Hydrogen gas
NaOH(aq) + Zn(s)→Na
2ZnO
2
(aq)+ H
2
(g)
Reaction of Metal carbonates and
hydrogen carbonates with acids
Na
2CO
3
(s)+ 2HCl(l)→2NaCl(aq) + H
2O + CO
2
EXAMPLES
Acid + Metal Carbonate →Salt + Water + Carbon dioxide
NaHCO
3
(s)+ HCl(l)→NaCl(aq) + H
2O + CO
2
hydrogen carbonates with acids
Na
2CO
3
(s)+ 2HCl(l)→2NaCl(aq) + H
2O + CO
2
EXAMPLES
Acid + Metal Carbonate →Salt + Water + Carbon dioxide
NaHCO
3
(s)+ HCl(l)→NaCl(aq) + H
2O + CO
2
Reaction of Metal Oxides with acids
CuO(s)+ 2HCl (l)→CuCl
2
(aq)+ H
2O
EXAMPLES
Metal Oxide + Acid →Salt + Water
The general reaction between a metal oxide and an acid can be
written as:
CuO(s)+ 2HCl (l)→CuCl
2
(aq)+ H
2O
EXAMPLES
Metal Oxide + Acid →Salt + Water
The general reaction between a metal oxide and an acid can be
written as:
Reaction of Non-Metallic Oxide with
bases
Ca(OH)
2
(aq)+ CO
2
(g)→CaCO
3
(s)+ H
2O(l)
EXAMPLES
Base + Non-Metal Oxide →Salt + Water
Non-metal oxides are acidic in nature. When a base reacts with
non-metal oxide, both neutralize each other resulting respective
salt and water are produced
bases
Ca(OH)
2
(aq)+ CO
2
(g)→CaCO
3
(s)+ H
2O(l)
EXAMPLES
Base + Non-Metal Oxide →Salt + Water
Non-metal oxides are acidic in nature. When a base reacts with
non-metal oxide, both neutralize each other resulting respective
salt and water are produced
Do acids and bases have something in common?
Both acids and bases are electrolytes which means that they
are good conductors of electricity. Acids and bases both
produce ions in water solution
Acids release hydrogen ions (H
+
) whereas Bases release
hydroxide ions (OH
-
). The process of mixing acid or base in water
is an exothermic one.
What happens to an acid or a base in a water solution?
Acids in water solution dissociate (H
+
) ions. Base, when dissolved
in water, produce (OH
-
) ions.
Both acids and bases are electrolytes which means that they
are good conductors of electricity. Acids and bases both
produce ions in water solution
Acids release hydrogen ions (H
+
) whereas Bases release
hydroxide ions (OH
-
). The process of mixing acid or base in water
is an exothermic one.
What happens to an acid or a base in a water solution?
Acids in water solution dissociate (H
+
) ions. Base, when dissolved
in water, produce (OH
-
) ions.
Strong and weak Acids/Bases
Strong Acid/BaseStrong Acid/Base
Strong Acid/Base Strong Acid/Base
Strong Acid/BaseStrong Acid/Base
Strong Acid/Base Strong Acid/Base
Types of Bases
Strong Bases
A base which completely ionizes in water thus produce a
large amount of hydroxyl ions is called a strong base.
Weak Bases
A base which is partially ionized in water thus produce a small
amount of hydroxyl ions is called a weak base.
Strong Bases
A base which completely ionizes in water thus produce a
large amount of hydroxyl ions is called a strong base.
Weak Bases
A base which is partially ionized in water thus produce a small
amount of hydroxyl ions is called a weak base.
Strength
The solution is considered acidic if the pH of the solution is
less than 7; the solution is neutral if the pH is around 7 ; if
the pH is greater than 7, the solution is called basic.
The abundance of hydrogen ions in an acidic solution,
then, is greater than that of hydroxide ions.
The solution is considered acidic if the pH of the solution is
less than 7; the solution is neutral if the pH is around 7 ; if
the pH is greater than 7, the solution is called basic.
The abundance of hydrogen ions in an acidic solution,
then, is greater than that of hydroxide ions.
Indicators
Those chemical substances which help to detect natureof
other chemicals.
Example -Litmus solution
Those chemical substances which help to detect natureof
other chemicals.
Example -Litmus solution
Examples
Indicators Acids Bases
Red litmus Remains red Turns blue
Blue litmus Turns red Remains blue
Turmeric No changes Red
Phenolphthalein Colorless Pink
Methyl orange Red Yellow
Indicators Acids Bases
Red litmus Remains red Turns blue
Blue litmus Turns red Remains blue
Turmeric No changes Red
Phenolphthalein Colorless Pink
Methyl orange Red Yellow
Olfactory indicators
Those substances whose odour changes in acidic or basic
mediumare called olfactory indicators.
Example -Vanilla, onion clove ( smell of onion and vanilla
diminishes in a base and remains as it it in an acid).
Those substances whose odour changes in acidic or basic
mediumare called olfactory indicators.
Example -Vanilla, onion clove ( smell of onion and vanilla
diminishes in a base and remains as it it in an acid).
Universal indicators
Those substances which not only detect nature of other
chemicals, but also determine their acidic or basic strengths.
Example -pH paper
Those substances which not only detect nature of other
chemicals, but also determine their acidic or basic strengths.
Example -pH paper
Importance of pH in everyday life
INTERESTING FACT
Rainwater is slightly acidic in nature as in the acid
dissolves in the rainwater to form carbonic acid
Rainwater is slightly acidic in nature as in the acid
dissolves in the rainwater to form carbonic acid
Neutralisation reaction
Acid + Bases →Salt + Water
Strong Acid + Strong Base →Neutral Salt + Water
Strong Acid + Weak Base →Acidic Salt + Water
Weak Acid + Strong Base →Basic Salt + Water
Acid + Bases →Salt + Water
Strong Acid + Strong Base →Neutral Salt + Water
Strong Acid + Weak Base →Acidic Salt + Water
Weak Acid + Strong Base →Basic Salt + Water
pH of Salts
Salts of a strong acid and a strong base are neutralwith
pH value of 7. On the other hand, salts of a strong acid
and weak base are acidicwith pH value less than 7 and
those of a strong base and weak acid are basicin nature,
with pH value more than 7.
Salts of a strong acid and a strong base are neutralwith
pH value of 7. On the other hand, salts of a strong acid
and weak base are acidicwith pH value less than 7 and
those of a strong base and weak acid are basicin nature,
with pH value more than 7.
Some Important Salts
Common salt
Bleaching powder
Baking soda
Washing soda
POP (Plaster of Paris)
Common salt
Bleaching powder
Baking soda
Washing soda
POP (Plaster of Paris)
Common salt
When electricity is passed through an aqueous solution of
sodium chloride ( called brine), it decomposes to form Sodium
hydroxide. The process is called the chlor-alkali process.
2NaCl(s)+ 2H
2O(l)→2NaOH(aq) + Cl
2+ H
2
When electricity is passed through an aqueous solution of
sodium chloride ( called brine), it decomposes to form Sodium
hydroxide. The process is called the chlor-alkali process.
2NaCl(s)+ 2H
2O(l)→2NaOH(aq) + Cl
2+ H
2
Uses of Sodium hydroxide
Sodium hydroxide in its pure form is a white
crystalline solid. It is odourless.
2NaCl(s)+ 2H
2O(l)→2NaOH(aq) + Cl
2+ H
2
Uses
●Preparation of soaps and detergents.
●Paper making.
●Used in artificial fibres.
Sodium hydroxide in its pure form is a white
crystalline solid. It is odourless.
2NaCl(s)+ 2H
2O(l)→2NaOH(aq) + Cl
2+ H
2
Uses
●Preparation of soaps and detergents.
●Paper making.
●Used in artificial fibres.
Uses of Hydrogen
●Used as fuel.
●Used in margarine.
●Ammonia for fertilisers.
Uses of Chlorine
●Used in water treatment.
●Swimming pools.
●PVC, Disinfectants, CFCs, Pesticides
●Used as fuel.
●Used in margarine.
●Ammonia for fertilisers.
Uses of Chlorine
●Used in water treatment.
●Swimming pools.
●PVC, Disinfectants, CFCs, Pesticides
Uses of Hydrochloric acid (HCl)
●Cleaning steel
●Ammonium chloride
●Medicines, Cosmetics
Uses of Bleach
●Household bleach
●Bleaching clothes
●Cleaning steel
●Ammonium chloride
●Medicines, Cosmetics
Uses of Bleach
●Household bleach
●Bleaching clothes
Bleaching powder
The chemical nature of bleaching powder is calcium
oxychloride.
Ca(OH)
2+ Cl
2→CaOCl
2(aq) + H
2O
Uses
●It is used for bleaching cotton.
●It is used as an oxidizing agent in chemical industries.
●It can be used for disinfection of water.
The chemical nature of bleaching powder is calcium
oxychloride.
Ca(OH)
2+ Cl
2→CaOCl
2(aq) + H
2O
Uses
●It is used for bleaching cotton.
●It is used as an oxidizing agent in chemical industries.
●It can be used for disinfection of water.
Baking Soda -(NaHCO
3)
The chemical nature of baking soda is sodium
bicarbonate.
It is produced on a large scale by treating cold and
concentrated solution of sodium chloride with
ammonia and carbon dioxide.
NaCl + H
2O + CO
2+ NH
3 →NH
4Cl + NaHCO
3
On heating, it decomposes to give sodium carbonate
with the evolution of carbon dioxide.
NaHCO
3 →Na
2CO
3+ H
2O + CO
2
3)
The chemical nature of baking soda is sodium
bicarbonate.
It is produced on a large scale by treating cold and
concentrated solution of sodium chloride with
ammonia and carbon dioxide.
NaCl + H
2O + CO
2+ NH
3 →NH
4Cl + NaHCO
3
On heating, it decomposes to give sodium carbonate
with the evolution of carbon dioxide.
NaHCO
3 →Na
2CO
3+ H
2O + CO
2
Baking Soda -(NaHCO
3)
Uses
●Used as an antacid to treat acidity in stomach.
●Used to make baking powder, which is used in
preparation of cakes, breads etc.
3)
Uses
●Used as an antacid to treat acidity in stomach.
●Used to make baking powder, which is used in
preparation of cakes, breads etc.
Washing Soda -(Na
2CO
3.10H
2O)
The chemical nature of bleaching powder is sodium
carbonate.
Sodium bicarbonate, on heating decomposes to
give sodium carbonate with the release of
hydrogen gas.
Na
2CO
3→Na
2CO
3.10H
2O
10H
2O
Uses
●Used in glass, soap and paper industries.
●Employed in the manufacture of sodium compounds such as
borax.
●Used to remove permanent hardness of water.
2CO
3.10H
2O)
The chemical nature of bleaching powder is sodium
carbonate.
Sodium bicarbonate, on heating decomposes to
give sodium carbonate with the release of
hydrogen gas.
Na
2CO
3→Na
2CO
3.10H
2O
10H
2O
Uses
●Used in glass, soap and paper industries.
●Employed in the manufacture of sodium compounds such as
borax.
●Used to remove permanent hardness of water.
Plaster of Paris -(CaSO
4.1/2H
2O)
The chemical nature of POP is Calcium sulphate
hemihydrate.
POP is prepared by heating gypsum at 373 K.On
heating, it loses water molecules and becomes calcium
sulphate hemihydrate.
Uses
●It is used to fix gaps in the walls/roofs of
buildings/houses.
●Used in making casting for several ornaments as well
as decorative material.
●Used in designing products for fire protection system.
4.1/2H
2O)
The chemical nature of POP is Calcium sulphate
hemihydrate.
POP is prepared by heating gypsum at 373 K.On
heating, it loses water molecules and becomes calcium
sulphate hemihydrate.
Uses
●It is used to fix gaps in the walls/roofs of
buildings/houses.
●Used in making casting for several ornaments as well
as decorative material.
●Used in designing products for fire protection system.
Water of Crystallization
●The water of crystallization means having a constant range of
molecules existing in one unit of salt.
●Crystal salts with water of crystallization are recognized as
hydrates.
●The different names of water crystallization are crystallization
water or water of hydration.
●The water of crystallization means having a constant range of
molecules existing in one unit of salt.
●Crystal salts with water of crystallization are recognized as
hydrates.
●The different names of water crystallization are crystallization
water or water of hydration.
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