Recurring Decimals Quizzes

Number Recurring Decimals Quiz1

Difficulty: Foundation

Curriculum: GCSE

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Number Recurring Decimals Quiz2

Difficulty: Higher

Curriculum: GCSE

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Visual overview of Recurring Decimals.

Introduction

Recurring decimals (also called repeating decimals) are decimals in which one or more digits repeat infinitely. They often appear when a fraction cannot be written as a finite decimal. Understanding recurring decimals is essential for GCSE Maths when converting between fractions and decimals, simplifying results, and solving algebraic problems.

Example: \( \tfrac{1}{3} = 0.\overline{3} \). The digit 3 repeats forever.

Core Concepts

Definition

A recurring decimal repeats a digit or group of digits forever. The repeating digits are shown with a bar above them.

\(0.\overline{3}=0.333\ldots\)
\(0.\overline{72}=0.727272\ldots\)

Identifying Recurring Decimals

Fractions with denominators that are not made from 2s or 5s usually give recurring decimals.

\(\tfrac{1}{6}=0.1\overline{6}\)
\(\tfrac{2}{11}=0.\overline{18}\)

Converting Fractions to Recurring Decimals

Divide the numerator by the denominator. If a remainder repeats, the decimal repeats too.

Example

\(\tfrac{1}{7}=0.\overline{142857}\) (period = 6)

Tip: The repeating group of digits is called the period.

Converting Recurring Decimals to Fractions

Use algebra to remove the repeating part:

Let \(x = 0.\overline{3}\)
Multiply by 10 → \(10x = 3.\overline{3}\)
Subtract → \(9x = 3\)
\(x = \tfrac{1}{3}\)

Example (Two Repeating Digits)

Let \(x = 0.\overline{72}\)
Multiply by 100 → \(100x = 72.\overline{72}\)
Subtract → \(99x = 72\)
\(x=\tfrac{72}{99}=\tfrac{8}{11}\)

Mixed Recurring Decimals

Some decimals have a non-repeating part followed by repeating digits.

Example

Let \(x = 0.16\overline{6}\)
\(10x = 1.6\overline{6}\)
\(100x = 16.\overline{6}\)
Subtract → \(90x = 15\)
\(x = \tfrac{1}{6}\)

Terminating vs Recurring Decimals

Terminating decimals: stop after a finite number of digits, e.g. \(0.25=\tfrac{1}{4}\)
Recurring decimals: digits repeat forever, e.g. \(0.\overline{3}=\tfrac{1}{3}\)
Rule: Fractions in lowest terms with denominators of the form \(2^m5^n\) terminate; all others recur.

Worked Examples

Example 1 (Foundation): Convert \(0.\overline{7}\) to a Fraction

Let \(x = 0.\overline{7}\)
\(10x = 7.\overline{7}\)
Subtract → \(9x=7\)
\(x=\tfrac{7}{9}\)

Example 2 (Higher): Convert \(0.1\overline{23}\) to a Fraction

Let \(x = 0.1\overline{23}\)
\(10x = 1.\overline{23}\), \(1000x = 123.\overline{23}\)
Subtract → \(990x = 122\)
\(x = \tfrac{122}{990}=\tfrac{61}{495}\)

Example 3: From Fraction to Decimal

\(\tfrac{7}{11}=0.\overline{63}\)

Common Mistakes

Not spotting the correct repeating digits.
Using the wrong power of 10 in the algebraic method.
Forgetting to simplify the fraction.
Mixing terminating and recurring decimals incorrectly.

Tip: After finding the fraction, convert it back to decimal to check your result.

Applications

Money, measurement, and probability problems.
Converting between fractions, ratios, and percentages.
Algebraic manipulation with repeating decimals.

Strategies & Tips

Underline or note the repeating part clearly before working.
Use powers of 10 matching the number of repeating digits.
Always simplify your final fraction.
Check by reconverting to decimal.

Summary / Call-to-Action

Recurring decimals bridge the gap between fractions and decimals. Mastering their identification and conversion gives you a strong foundation for ratio, proportion, and algebra topics.

Practise converting both ways: fraction ↔ decimal.
Start with one-digit repeats, then move to mixed forms.
Check your work by reversing the process.