Acids, Bases and Salts PDF

Summary

This document provides information on acids, bases, and salts, including their properties, chemical reactions, and tests. It's a good resource for chemistry students at secondary school level.

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# Acids, Bases and Salts

## Chapter 2

It is interesting to note that the various food items that we eat have different tastes. This is due to the fact that the chemical nature of all these substances are different. On the basis of their chemical properties, the chemical compounds can be classified as acids, bases and salts. Some examples include digestive fluids of humans and animals containing acids, the bitter taste of substances like bitter gourd, cucumber etc., is due to the bases present in them, common salt is used in cooking.

## 2.1 Acids

Those chemical substances which have a sour taste and change the colour of blue litmus to red are called acids. Some common fruits such as unripe mango, lemon, orange, tamarind etc., are sour in taste. This suggests that these fruits contain acids.

Some commonly used acids are hydrochloric acid (HCl), sulphuric acid (H₂SO₄), nitric acid (HNO₃) etc.

Some naturally occurring acids are as follows:

| Natural source | Acid |
|:---|:---|
| Vinegar | Acetic acid |
| Orange and lemon | Citric acid |
| Tamarind | Tartaric acid |
| Tomato | Oxalic acid |
| Curd | Lactic acid |
| Ant's sting and nettle's sting | Methanoic acid |

### Test for the presence of H₂ gas

It can be done by passing the gas through a soap solution and then, bringing a burning splinter near the soap bubble filled with the gas. If the gas burns with a pop sound, it confirms the presence of hydrogen gas.

* **Reaction with metal carbonates and metal hydrogen carbonates** Acids react with metal carbonates and metal hydrogen carbonates (also called bicarbonates) produces metal salts, water and evolve carbon dioxide - gas with brisk effervescence.

Metal carbonate / Metal hydrogen carbonate + Acid → Salt + Carbon dioxide + Water (Brisk effervescence)

> e.g. CaCO₃(s) + 2HCl(aq) → CaCl₂(aq) +H₂O(aq) + CO₂(g)↑
> Calcium\
> carbonate
> Hydrochloric\
> acid
> Calcium chloride
> Carbon dioxide

Limestone, chalk and marble are different forms of calcium carbonate.

### Test for CO₂ gas

When CO₂ gas is passed through lime water, it turns milky due to the formation of white precipitate of CaCO₃.

> Ca(OH)₂ (aq) + CO₂ (g) → CaCO₃(s) +H₂O(l)
> (Lime water)
> Carbon\
> dioxide
> Calcium\
> carbonate
> (White ppt.)
> Water

But, if CO₂ is passed in excess, milkiness disappears due to the formation of Ca(HCO₃)₂ which is soluble in water.

> CaCO₃(s) +H₂O(l) +CO₂(g) → Ca(HCO₃)₂ (aq)
> Calcium Water Carbon\
> carbonate
> dioxide
> (Milkiness)
> (Excess)
> Calcium bicarbonate
> (Soluble in water)

* **Reaction with metallic oxides** Acids react with certain metallic oxides to form salt and water. Since, the chemical nature of these oxides are basic hence, they are also called basic oxides.
> Metal oxide + Acid → Salt + Water
> e.g. CuO + 2HCI → CuCl₂ + H₂O
> Copper (II) Hydrochloric\
> oxide
> acid
> Copper (II)\
> chloride
> (Blue-green)

## 2.2 Bases

Those chemical substances which are bitter in taste, soapy to touch and turn red litmus to blue are known as bases. e.g. Sodium hydroxide (NaOH), calcium hydroxide Ca(OH)₂, etc.

### Chemical Properties of Bases

The significant chemical properties of bases are as follows

* **Reaction with metals** Strong bases react with active metals to produce hydrogen gas. Thus, these bases should not be kept in active metal container.
> Metal + Base → Salt + Hydrogen gas
> e.g. Zn(s)+2NaOH(aq) → Na₂ZnO₂(s) + H₂(g)
> Sodium\
> hydroxide
> Zinc
> Sodium zincate Hydrogen\
> gas

* **Reaction with non-metallic oxide** Bases react with non-metallic oxides to produce salt and water. The chemical nature of non-metallic oxides are acidic in nature. Hence, they are called acidic oxides.
> Base + Non-metallic oxide → Salt + Water
> e.g. Ca(OH)₂ (aq) + CO₂ (g) → CaCO₃(s) +H₂O(l)
> Slaked lime
> Carbon\
> dioxide
> Calcium\
> carbonate
> Water

* **Mg(OH)₂ (s) → Mg²⁺(aq)+2OH^- (aq)**

> **Note:** All bases do not dissolve in water except a few which can dissolve in water without undergoing chemical reactions are called alkalis. An alkali is a base that dissolves in water.

* **Since, ions help in conduction of charge, so a solution of both acids and bases conducts electricity.** Therefore, the common property of acids and bases is to dissociate into ions in aqueous solution and conduct electricity.

### **Effect of Dilution on an Acid or Base**

Mixing of an acid or base with water is called dilution and it results in decrease in the concentration of ions (H₃O⁺/OH^-) per unit volume and the acid or base is said to be diluted.

When we dilute an acid or a base, the reaction is highly exothermic (heat generating). Hence, care must be taken while doing it. During dilution, acids must always be added slowly to water with constant stirring.

Water should not be added to concentrated acid because when water is added, the heat generated may cause the acid to splash out and cause burns.

The glass container may also break due to excessive heating.

## 2.3 What do Acids and Bases have in Common

* **In presence of water, all acids give H⁺ion.** These [H⁺] ion combines with water molecules and form H₃O⁺ (hydronium ion). Hence, we can say that in presence of water, all acids give H⁺ion or [H₃O⁺]ion.
> e.g.
> HA(aq) → H+(aq)+A-(aq)
> (Acid)
> HCl(aq) → H+(aq)+Cl^- (aq)
> H⁺+H₂O→H₃O⁺

* **In presence of water, all the bases give OH^- ion.**
> BOH(aq) → B⁺ (aq)+OH^-(aq)
> (Base)
> e.g.
> NaOH(s) H₂O Na⁺(aq) +OH(aq)
> KOH(s) H₂O K⁺ (aq). +OH(aq)

## 2.4 Reaction between Acids and Bases

Acids react with bases to produce salt and water. In this reaction, an acid neutralises a base, i.e. acid nullifies or reduces the effect of a base or vice-versa thus, the reaction is known as neutralisation reaction.

In general, neutralisation reaction can be written as
> Base+ Acid → Salt + Water
> HX+M OH → MX+HOH

Here, H represents hydrogen atom and M represents any atom.

> H⁺ (aq)+OH^-(aq) →H₂O(l)
> e.g. NaOH (aq) + HCl(aq) → NaCl(aq) + H₂O(l)
> Sodium Hydrochloric\
> hydroxide acid
> Sodium\
> chloride
> Water

## Try These 2.1

1. Which acid is found in nettle's sting?
2. Bases should not be kept in active metal container. Why?
3. Name the precipitate formed when CO₂ reacts with lime water.
4. Give a chemical reaction to prove that non-metallic oxides are acidic in nature.
5. What is the effect of dilution on an acid or base?
6. Write the product formed when sodium hydroxide reacts with hydrochloric acid.

## 2.5 Indicators

The substances that change their colour or odour when added into an acid or an alkaline solution to indicate the presence of an acid or a base are called indicators. Indicators can be classified in the following ways

### On the Basis of Colour Change

These indicators tell us whether a substance is acidic or basic by the change in colour.

* **(i) Natural Indicators**
These indicators are obtained from natural sources, e.g. litmus solution is a purple colour dye extracted from the lichen plant (belonging to the division “Thallophyta”).

Some Natural Indicators with Characteristic Colours

| Indicator | Colour in Acidic Medium | Colour in Alkaline Medium |
|:---|:---|:---|
| Litmus | Blue → Red | Red → Blue |
| Red cabbage juice (from leaves) | Red | Green |
| Turmeric (haldi) | Yellow | Reddish brown |
| Flower of Hydrangea plant | Blue | Pink |
| Flower of petunia | Reddish purple | Violet |
| Flower of geranium | Orange red | Blue |

* **(ii) Synthetic Indicators**

The indicators which are synthesised in the laboratory or in industry and are not obtained by natural sources are known as synthetic indicators. e.g. Methyl orange, phenolphthalein etc.

Some Synthetic Indicators with Characteristic Colours

| Indicator | Colour in Acidic Solution | Colour in Basic Solution | Colour in Neutral Solution |
|:---|:---|:---|:---|
| Phenolphthalein | Colourless | Pink | Colourless |
| Methyl orange | Red | Yellow | Orange |

* **(iii) Universal Indicators**

To predict how strong a given acid or base is, an universal indicator is preffered over litmus paper. It is a mixture of several indicators. It shows different colours at different concentrations of hydrogen ion in a solution.

### On the Basis of Order Change

* **Olfactory Indicators**

Those substances whose odour changes in acidic or basic medium are called olfactory indicators. Vanilla extract, clove and onion can be used as olfactory indicators. The smell of vanilla and onion indicators can be detected in presence of an acid only but not in the presence of a base.

## 2.6 Strength of an Acid or Base

Strength of an acid or base depends on the number of H⁺ ions or OH^- ions produced by them respectively. Larger the number of H⁺ ions produced by an acid, stronger is the acid and vice-versa. Similarly, larger the number of OH^- ions produced by a base, stronger is the base and vice-versa.

## 2.7 The pH Scale

It is a scale used for measuring hydrogen ion concentration. The p in pH stands for potenz which means power in German. It has values ranging from 0 (very acidic) to 14 (very alkaline). pH is a number which indicates the acidic or basic nature of a solution.

Higher the hydronium ion concentration present in the solution, lower is its pH value [pH means power of hydrogen ions].


* If pH > 7, solution is basic.
* If pH < 7, solution is acidic.
* If pH = 7, solution is neutral.

Pure water is neutral because of the absence of free ions. A paper impregnated with the universal indicator is used for measuring pH. Now-a-days, pH meter, an electronic device, is used to measure the pH value.

# Chapter 02: Acids, Bases and Salts

## 2.8 Importance of pH in Everyday Life

Following are the examples showing importance of pH in everyday life.

### Plants and Animals are pH Sensitive

Living organisms can survive only in a narrow range of pH range. Our body works normally within the pH range of 7.0 to 7.8. When pH of rain water goes below 5.6, it is called acid rain. When acid rain flows into the rivers, it lowers the pH of the river water and makes survival of aquatic life difficult.

### pH of the Soil

Every type of plant requires a specific pH range for their healthy growth. Therefore, the nature of soil is known first by testing its pH and then a particular crop is grown in it. It is also suitable for selecting the fertiliser for a particular crop by knowing the pH of the soil.

### pH in Our Digestive System

Our stomach produces hydrochloric acid (HCl), which helps in the digestion of food.

During indigestion, the stomach produces too much acid, which causes pain and irritation. To correct the disturbed pH range, magnesium hydroxide or milk of magnesia (a mild base) is used as a medicine, which is also called antacid as it neutralises the effect of acid (or acidity).

### Change Leads to Tooth Decay

Tooth enamel is made up of calcium hydroxyapatite (a crystalline form of calcium phosphate). It is the hardest substance in the body. If the pH inside the mouth decreases below 5.5 (acidic), the decay of tooth enamel begins.

Bacteria present in the mouth degrades the sugar and left food particles that remains in the mouth after eating and release acids. The best way to prevent this is to clean the mouth after eating food. To prevent tooth decay, toothpastes (bases) are used which neutralise the excess acid.

### Defence by Animals and Plants through Chemical Warfare

In insects like honeybee, ant etc., bite, they inject an acid into the skin, that causes pain and irritation. If a mild base like baking soda is applied on the affected area, it gives relief.

* Stinging hair of nettle leaves (herbaceous plant that grows in wild) injects methanoic acid in the skin, which causes burning pain. It is cured by rubbing the affected area with the leaves of dock plant, which often grows beside the nettle plant.

## Try These 2.2

1. Among litmus, turmeric and phenolphthalein, which Indicator gives pink colour in basic solution?
2. What is the colour of phenolphthalein in basic solution?
3. Why pure water is neutral in nature?
4. In which pH range our body works?
5. Write the role of HCl present in the stomach.
6. Name the chemical which is injected into the skin of a person during ant's sting and during the nettle sting.

## 2.9 Salts

They are produced by the neutralisation reaction between acid and base. Salts of strong acid and a strong base are neutral with pH value of 7.

Salts of a strong acid and weak base are acidic with pH value less than 7. Salts of strong base and weak acid are basic in nature with pH value more than 7.

Now, we will study about preparation and properties of some salts.

### I. Common Salt

Chemical name: Sodium chloride
Chemical formula: NaCl

#### Preparation

* It is formed by the combination of hydrochloric acid and sodium hydroxide solution. Sea water contains many salts dissolved in it.
* It is obtained on large scale from sea water by separating other salts from it.
* It may also be obtained from rock salt. (Rock salt is mined like coal.)

#### Uses

* It is the salt that we use for cooking purpose.
* It is an important raw material which is used for preparing, various materials like sodium hydroxide, baking soda, washing soda, bleaching powder etc.

### II. Caustic Soda

Chemical name : Sodium hydroxide
Chemical formula : NaOH

#### Preparation

* When electricity is passed through an aqueous solution of sodium chloride (called brine), it decomposes to form sodium hydroxide and chlorine. This process is named as, chlor-alkali process because the products formed, i.e. chlor for chlorine and alkali for sodium hydroxide.
* The reaction involved is as follows:
> Electric current
> Water
> 2NaCl(aq) +2H2O(l). → 2NaOH(aq) + Cl2(g) + H2(g)
> Sodium chloride\
> Brine
> Sodium hydroxide\
> (Near cathode)
> Chlorine\
> (At anode)
> Hydrogen\
> (At cathode)

#### Uses

The uses of different products formed in chlor-alkali process are as follows

* H₂ is used in fuels, margarine, ammonia for fertilizers.
* Cl₂ is used in water treatment, swimming pools, PVC, disinfectants, CFCs, pesticides.
* NaOH is used for de-greasing metals, soaps and detergents, paper making, artificial fibres.
* Chlorine and hydrogen are use as raw material for the preparation of hydrochloric acid (HCl). Further, HCl is used for cleaning steel, ammonium chloride, medicines, cosmetics.
* Cl₂ and NaOH used as raw material for the preparation of bleach. Moreover, this bleach is used in different household work, for bleaching fabric etc.

### III. Bleaching Powder

Chemical name: Calcium oxychloride
Chemical formula : CaOCl₂

#### Preparation

* It is produced by the action of chlorine on dry slaked lime.
> Ca(OH)₂ + Cl₂ → CaOCl₂+H₂O
> Slaked lime Chlorine\
> Bleaching Water\
> powder

* On standing for a longer time, it undergoes auto-oxidation due to which bleaching action decreases.

#### Uses

The uses of bleaching powder are as follows

* It is used for bleaching cotton and linen in the textile industry, for bleaching wood pulp in paper industries and for bleaching washed clothes in laundry.
* It is also used as a disinfectant for water to make it free from germs.
* It is used as an oxidising agent in many chemical industries.

### IV. Baking Soda

Chemical name : Sodium hydrogencarbonate
Chemical formula : NaHCO₃

#### Preparation

* It is produced by using sodium chloride as one of the raw material.
* The reaction involved is as follows:
> NaCl(aq) + H₂O(l) + CO₂(g) +NH₃(g)→ NH₄Cl(g)+ NaHCO₃(s)
> Brine\
> Carbon dioxide Ammonia\
> Ammonium Sodium hydrogen\
> chloride
> carbonate

The following reaction takes place when it is heated during cooking.

> 2NaHCO₃ Heat Na₂CO₃ +H₂O+CO₂↑
> Sodium hydrogen\
> carbonate
> Sodium carbonate

#### Properties

* The soda is commonly used in the kitchen for making tasty crispy pakora.
* It is a mild non-corrosive basic salt.
* It is the major constituent of baking powder.
* Sometimes, it is added for faster cooking.

#### Uses

The uses of sodium hydrogen carbonate are as follows

* For making baking powder, which is a mixture of baking soda (sodium hydrogen carbonate) and a mild edible acid such as tartaric acid. When baking powder is heated or mixed in water, the following reaction takes place.
> NaHCO₃+ H⁺→ CO₂ +H₂O + Sodium salt of acid
>> Sodium (From Carbon Water\
> hydrogen any acid) dioxide
> carbonate
> Carbon dioxide produced during the reaction causes bread or cake to rise making them soft and spongy.
* Sodium hydrogen carbonate is also an ingredient of antacid. Being alkaline, it neutralises-excess acid in the stomach and provides relief.
* It is also used in soda-acid fire extinguishers.
* Baking soda is also acts as a preservative for milk. In summer, it is added to the milk, as milk decompose and release lactic acid which makes milk sour. Added NaHCO₃ reacts with acid to form salt and water. It neutralises the acidic effect and milk does not become sour.

### V. Washing Soda

Chemical name : Sodium carbonate decahydrate
Chemical formula : Na₂CO₃.10H₂O

#### Preparation

Sodium carbonate can be obtained by heating baking soda.

Further, the recrystallisation of sodium carbonate. It is also a basic salt.

* The reaction involved is as follows:
> Na₂CO₃(s) +10 H₂O(l) → Na₂CO₃.10H₂O(s)
> Sodium carbonate

#### Properties

* It is a white crystalline solid.
* Its solution in water is alkaline in nature (turns litmus blue).
* It has the property to remove dirt and grease from dirty clothes thus, it is called washing soda..

#### Uses

The uses of sodium carbonate are as follows

* It is used in glass, soap and paper industries.
* It is used for the manufacture of sodium compounds like borax.
* It also removes permanent hardness of water.
* It is used as a cleansing agent (detergent) in laundries.

### VI. Plaster of Paris

Chemical name : Calcium sulphate hemihydrate
Chemical formula : CaSO₄.H₂O

#### Preparation

* It is obtained by heating gypsum (CaSO₄.2H₂O) at 373 K. At this temperature, gypsum loses water molecules and forms calcium sulphate hemihydrate (Plaster of Paris).
* The reaction involved is as follows
> 1
> CaSO₄ 2H₂O 373 K CaSO₄.H₂O+1H₂O
> (Gypsum)
>> Heat
> (Plaster of Paris)

* Plaster of Paris is a white powder and on mixing water, it changes to gypsum giving a hard solid.
> 1
> CaSO₄ .H₂O+1-H₂O→ CaSO₄ •2H₂O
> (Plaster of Paris)
> (Gypsum)

* When gypsum is heated above 400 K, dead burn plaster (anhydrous CaSO₄) is obtained which does not have the property of hardening.

#### Uses

The uses of plaster of Paris are as follows

* It is used by doctors for joining the fractured bones at right position, i.e. for making plaster to support fractured bones.
* It is also used for making toys, decorative pieces and for making designs on ceilings.

## 2.10 Water of Crystallisation

Crystals of some compounds seem to be dry but actually contain some water molecules attached to them as an essential part of their crystal structure. These water molecules are called water of crystallisation and such salts are called hydrated salts. Every hydrated salt has a fixed number of water molecules of water of crystallisation in its one formula unit.

* For example, copper sulphate (blue vitriol; CuSO₄.5H₂O). It contains as water of crystallisation.
* Gypsum (CaSO₄.2H₂O). It has two water molecules as water of crystallisation.

Plaster of Paris possesses 1/2 molecule of water of crystallisation.

### On Heat on Hydrated Salts

When we heat the hydrated salts, the water of crystallisation is removed and the hydrated salts lose their regular shape and colour and become colourless powdery substance. The salts so formed are called anhydrous salts. If we moisten the anhydrous salts, it becomes hydrated once again and regain its colour.

For example, when blue colour copper sulphate crystals (CuSO₄.5H₂O) are heated strongly, they lose all the water of crystallisation and form anhydrous copper sulphate, which is white in colour.

> CuSO₄.5H₂O Heat CuSO₄ +5H₂O
> Hydrated copper\
> sulphate (Blue)
> Anhydrous copper sulphate (White)

## Try These 2.3

1. What is the nature of salt of strong acid and weak base?
2. Which raw material is used for the preparation of bleach?
3. Name the chemical compound which is used as a disinfectant for water.
4. When a sodium compound X, which is also used in soda-fire extinguisher, when is heated gives a sodium compound Y along with water and carbon dioxide. Y on crystallisation forms compound Z. Identify X, Y and Z.
5. Write the chemical formula of blue vitriol.
6. What happens when gypsum is heated above 373 K?