What Is pH?

pH is a numerical scale that shows how acidic or alkaline (basic) a substance is. It ranges from 0 to 14.

• pH 0–6: Acidic

• pH 7: Neutral

• pH 8–14: Alkaline (basic)

What pH Measures

pH measures the concentration of hydrogen ions in a solution.

• More hydrogen ions → lower pH → stronger acid

• Fewer hydrogen ions → higher pH → stronger alkali

How pH Is Measured

1. Universal Indicator

Changes the solution’s color. Compare it to a pH colour chart.

• Red → Strong acid

• Yellow → Weak acid

• Green → Neutral

• Blue → Weak alkali

• Purple → Strong alkali

2. pH Probe / Meter

Gives precise numerical values.

Why pH Matters

• Biology: Blood stays around pH 7.4

• Agriculture: Soil pH affects plant growth

• Medicine: Stomach acid has very low pH

• Everyday life: Soaps, shampoos, foods all have different pH levels

• Chemistry: Neutralisation reactions aim to reach pH 7

pH in Neutralisation

When an acid reacts with a base:

• pH moves up toward 7 if the acid is neutralised

• pH moves down toward 7 if the base is neutralised

If both react in exact amounts, the final pH = 7.

What Is a Base?

A base is a substance that can react with an acid to neutralise it and form a salt + water.

A base usually:

• produces hydroxide ions (OH⁻) in water

• has a pH greater than 7

• feels slippery/soapy

• tastes bitter (DON’T taste chemicals in real life — this is just theory)

Base vs Alkali

These two words are related but not the same:

• Base: Any substance that reacts with acids.

• Alkali: A soluble base (a base that dissolves in water).

So all alkalis are bases, but not all bases are alkalis.

Examples of alkalis:

• Sodium hydroxide

• Potassium hydroxide

• Calcium hydroxide

Examples of bases that are not alkalis (because they don’t dissolve well):

• Copper(II) oxide

• Magnesium oxide

• Iron(III) oxide

Properties of Bases

1. pH > 7

   • Weak bases: around 8–11

   • Strong bases: around 12–14

2. Turn red litmus paper blue

   • This is a classic test for bases.

3. React with acidsBase + Acid → Salt + Water

4. Produce hydroxide ions in waterThis is why solutions of alkalis are alkaline.

Examples of Bases

Common strong bases:

• Sodium hydroxide

• Potassium hydroxide

Common weak bases:

• Ammonia solution

• Calcium hydroxide

Metal oxides as bases:

• Copper(II) oxide

• Magnesium oxide

• Zinc oxide

These don’t dissolve well, but they still react with acids.

Reactions With Acids (Word Equations)

Base + Acid → Salt + Water

Examples:

1. Sodium hydroxide + Hydrochloric acid → Sodium chloride + Water

2. Calcium hydroxide + Nitric acid → Calcium nitrate + Water

3. Copper(II) oxide + Sulfuric acid → Copper(II) sulfate + Water

Everyday Bases

You see them all the time:

• Soap

• Baking soda

• Toothpaste

• Bleach

• Washing powder

• Oven cleaner

They feel slippery because bases react with the oils on your skin.

What Happens During Neutralisation?

• Acids contain hydrogen ions.

• Bases (or alkalis) contain hydroxide ions.

• When they react, these ions join to form water.

• Whatever ions are left over combine to make a salt.

Examples (word equations):

1. Hydrochloric acid + Sodium hydroxide → Sodium chloride + Water

2. Sulfuric acid + Calcium hydroxide → Calcium sulfate + Water

3. Nitric acid + Magnesium oxide → Magnesium nitrate + Water

4. Hydrochloric acid + Copper(II) oxide → Copper(II) chloride + Water

What Happens to pH During Neutralisation?

• The acid’s pH starts below 7.

• The base’s pH starts above 7.

• As they react, pH moves towards 7.

• If exact amounts are used, the final pH is neutral (7).

Where Neutralisation Is Used

• Treating indigestion

• Making salts in chemistry

• Treating acidic soil in farming

• Treating acidic industrial waste

• Making products like toothpaste and soap

What Are Ions?

Ions are atoms or groups of atoms that have an electric charge because they have gained or lost electrons.

• If they lose electrons, they become positively charged → called positive ions.

• If they gain electrons, they become negatively charged → called negative ions.

Positive Ions (Cations)

These are formed when atoms lose electrons.

Examples of positive ions:

• Sodium ion

• Calcium ion

• Magnesium ion

• Hydrogen ion

These usually come from metals or acids.

Negative Ions (Anions)

These are formed when atoms gain electrons.

Examples of negative ions:

• Chloride ion

• Sulfate ion

• Nitrate ion

• Hydroxide ion

• Carbonate ion

These often come from non-metals, acids, or bases.

Why Ions Matter in Chemistry

Ions are important because:

• Acids release hydrogen ions.

• Bases (alkalis) release hydroxide ions.

• These ions react together during neutralisation.

• Salts are made of positive and negative ions.

A salt is always made from:

• a positive ion from the base or metal

• a negative ion from the acid

Example:Sodium ion + Chloride ion → Sodium chloride (a salt)

Ions in Solutions

When salts dissolve in water, they split into ions.

For example:

• Table salt splits into sodium ions and chloride ions.

• Calcium chloride splits into calcium ions and chloride ions.

This is why solutions can conduct electricity — ions carry charge.

Ions in Everyday Life

• Toothpaste contains fluoride ions

• Sports drinks contain electrolytes (ions like sodium, potassium, chloride)

• Blood contains many ions to control pH

• Batteries rely on ions to move charge

What Are Alkalis?

An alkali is a type of base that dissolves in water.When an alkali dissolves, it produces hydroxide ions, which make the solution alkaline.

So in simple terms:

• A base reacts with acids.

• An alkali is a base that can dissolve in water.

All alkalis are bases, but not all bases are alkalis.

What Alkalis Do

When an alkali dissolves in water, it releases hydroxide ions.This causes the solution to have a pH greater than 7.

Common Alkalis

These are the main alkalis you will use in school chemistry:

• Sodium hydroxide

• Potassium hydroxide

• Calcium hydroxide

• Aqueous ammonia (ammonia dissolved in water)

Properties of Alkalis

• Have a pH above 7

• Turn red litmus paper blue

• Can neutralise acids

• Feel slippery due to reaction with oils on skin

• Strong alkalis can be corrosive

Reactions of Alkalis

Alkalis react with acids to form salt and water.

Examples (word equations):

1. Sodium hydroxide + Hydrochloric acid → Sodium chloride + Water

2. Potassium hydroxide + Nitric acid → Potassium nitrate + Water

3. Calcium hydroxide + Sulfuric acid → Calcium sulfate + Water

Everyday Alkalis

Some everyday substances contain alkalis, such as:

• Soap

• Toothpaste

• Bleach

• Washing powder

• Certain cleaning sprays