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Converting between fractions, decimals and percentages - EduqasConverting recurring decimals - Higher

Fractions, decimals and percentages are frequently used in everyday life. Knowing how to convert between them improves general number work and problem solving skills.

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Converting recurring decimals - Higher

Using dot notation

A recurring decimal exists when numbers repeat forever. For example, \(0. \dot{3}\) means 0.333333... - the decimal never ends.

Dot notation is used with recurring decimals. The dot above the number shows which numbers recur, for example \(0.5\dot{7}\) is equal to 0.5777777... and \(0.\dot{2}\dot{7}\) is equal to 0.27272727...

If two dots are used, they show the beginning and end of the recurring group of numbers: \(0. \dot{3} 1 \dot{2}\) is equal to 0.312312312...

Example

How is the number 0.57575757...written using dot notation?

In this case, the recurring numbers are the 5 and the 7, so the answer is \(0.\dot{5}\dot{7}\).

Example

Convert \(\frac{5}{6}\) to a recurring decimal.

First, convert the to a decimal by division:

Diagram showing how to converting 5/6 into a recurring decimal

\(\frac{5}{6}~=~0.8333...~=~0.8\dot{3}\)

Algebra skills are needed to turn recurring decimals into fractions.

Example

Convert \(0. \dot{1}\) to a fraction.

\(0. \dot{1}\) has 1 digit recurring.

Firstly, write out \(0. \dot{1}\) as a number, using a few repeats of the decimal.

0.111111111鈥︹赌

Call this number \(x\). We have an equation \(x~=~0.1111111鈥)

If we multiply this number by 10 it will give a different number with the same digit recurring.

So if:

\(x~=~0.1111111鈥) then

袄(10虫词=词0.1111111鈥)

Notice that after the decimal points the recurring digits match up. So subtracting these equations gives:

袄(10虫词-词虫词=词1.111111...词-词0.111111鈥)

So \(9x~=~1\)

Dividing both sides by 9 gives:

\(x~=~\frac{1}{9}\)

So \(0. \dot{1}~=~\frac{1}{9}\)

Question

Prove that \(0. \dot{1}\dot{8}\) is equal to \(\frac{2}{11}\).

Question

Prove that \(0.2 \dot{8}\) is equal to \(\frac{13}{45}\).

  • Some decimals terminate which means the decimals do not recur, they just stop. For example, 0.75.
  • To find out whether a fraction will have a terminating or recurring decimal, look at the prime factors of the when the fraction is in its most simple form. If they are made up of 2s and/or 5s, the decimal will terminate. If the prime factors of the denominator contain any other numbers, the decimal will recur.
  • Some decimals are irrational, which means that the decimals go on forever but not in a pattern (they are not recurring). An example of this would be \(\pi\) or \(\sqrt{2}\) which is also called a surd.