The pH SCALE measures the CONCENTRATION of hydrogen ions (Hโบ) in a solution โ it indicates how acidic or alkaline a solution is.
Scale range: 0 to 14 (though values slightly outside this range are possible).
pH 0โ6: ACIDIC (more Hโบ ions than OHโป ions)
pH 7: NEUTRAL (equal Hโบ and OHโป โ pure water at 25ยฐC)
pH 8โ14: ALKALINE (more OHโป ions than Hโบ ions)
The pH scale is LOGARITHMIC โ each unit change represents a 10ร change in Hโบ concentration:
pH 3 has 10ร more Hโบ than pH 4.
pH 3 has 100ร more Hโบ than pH 5.
Typical pH values:
Hydrochloric acid (conc.): pH ~0โ1
Vinegar (ethanoic acid): pH ~3
Coffee: pH ~5
Pure water: pH 7
Baking soda solution: pH ~9
Sodium hydroxide solution: pH ~13โ14
Indicators and Measuring pH
An INDICATOR is a substance that changes colour depending on the pH of a solution.
UNIVERSAL INDICATOR:
A mixture of indicators that shows a range of colours across the pH scale.
Red โ orange โ yellow โ green โ blue โ purple as pH increases from 0 to 14.
Gives an APPROXIMATE pH โ tells you the pH range.
LITMUS:
Red in ACID, blue in ALKALI, purple in neutral.
Simple test โ tells you acid or alkali, not the pH number.
PHENOLPHTHALEIN:
Colourless in acid, PINK in alkali.
Used in titrations โ clear colour change at the end point.
pH PROBE / METER:
Gives a PRECISE numerical pH reading โ more accurate than indicators.
Used in industry and for accurate laboratory measurements.
THE RELATIONSHIP BETWEEN pH AND CONCENTRATION:
The MORE Hโบ ions in solution โ LOWER pH (more acidic).
The MORE OHโป ions in solution โ HIGHER pH (more alkaline).
Adding water DILUTES the solution โ concentration of Hโบ decreases โ pH INCREASES towards 7.
Effect of Neutralisation on pH
Adding a BASE to an ACID gradually increases the pH (makes it less acidic).
Adding an ACID to an ALKALI gradually decreases the pH (makes it less alkaline).
A TITRATION CURVE shows how pH changes as acid is added to alkali:
At the START: pH high (~13) โ the solution is strongly alkaline.
As acid is added: pH falls slowly at first.
Near the END POINT: pH drops RAPIDLY โ a large pH change for a small addition.
At the END POINT: pH = 7 (if strong acid + strong alkali).
After the end point: pH continues to fall as excess acid is added.
WHY SUCH A SHARP CHANGE NEAR THE END POINT:
Near the equivalence point, there is very little OHโป left to absorb the Hโบ from the added acid.
So each small addition of acid produces a large change in Hโบ concentration โ large pH change.
โ ๏ธ Common Mistake
Lower pH = MORE ACIDIC = MORE Hโบ ions. Higher pH = MORE ALKALINE = FEWER Hโบ ions (more OHโป). Students often confuse pH 2 and pH 12 โ pH 2 is strongly acidic, pH 12 is strongly alkaline. pH 7 is neutral โ pure water. NOT all solutions at pH 7 are water.
๐ Key Note
pH 0โ6: acidic. pH 7: neutral. pH 8โ14: alkaline. Lower pH = more Hโบ ions. pH scale is logarithmic โ each unit = 10ร change in Hโบ. Universal indicator: shows range of colours. Phenolphthalein: colourless in acid, pink in alkali. pH meter: most accurate.
๐ฏ Matching Activity โ Match the pH to the Description
Match each pH value to the correct description. โ drag the symbols on the right to match the component names on the left.
pH 1
Drop here
pH 7
Drop here
pH 13
Drop here
pH 4
Drop here
pH 10
Drop here
Weakly acidic โ e.g. black coffee or tomato juice
Neutral โ equal Hโบ and OHโป ions โ pure water at 25ยฐC
Weakly alkaline โ e.g. baking soda solution
Strongly acidic โ high concentration of Hโบ ions
Strongly alkaline โ high concentration of OHโป ions
๐ฏ Test Yourself
Question 1 of 2
1. A solution has a pH of 2. Another has a pH of 4. How do their Hโบ ion concentrations compare?
2. An acid is diluted by adding water. What happens to its pH?
โญ How Well Do You Understand This Topic?
Be honest with yourself โ this helps you know what to revise!
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๐ค Ask Mr Badmus AI
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