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Equivalent fractions Rational numbers Irrational numbers Simplifying surds Adding and subtracting surds Multiplying and dividing surdsThis topic is relevant for:
Here we will learn about rationalising the denominator of surd expressions including how to rationalise the denominator for simple surd expressions, and then extend these skills to more complicated surd fractions.
There are also rationalising the denominator worksheets based on Edexcel, AQA and OCR exam questions, along with further guidance on where to go next if you’re still stuck.
Rationalising the denominator is where we convert the denominator of a fraction from an irrational number to a rational number.
E.g.
A number that can be written as an integer (whole number) or a simple fraction is called a rational number.
E.g.
2, 100, −30 are all rational numbers.
So are numbers like \frac{1}{2} , \frac{3}{4} and \frac{1}{9} .
Rational numbers can also be terminating decimals like 0.5 or recurring decimals like 0.111…
Any number that can’t be written in this form is called irrational. In decimal form, these are infinite, with no recurring or repeating pattern. Surds are roots which give irrational numbers; remember that at GCSE, we only deal with square root.
All divisions can be written as fractions.
4\div 2 can be written as \frac{4}{2}
In a similar way:
However, it’s much easier in mathematics to divide by an integer where possible, so it is useful to be able to convert surd fractions with irrational denominators (surds on the bottom) to fractions with rational denominators.
We do this by using the ideas associated with equivalent fractions:
If the numerator and denominator are both multiplied by the same number or expression, the fraction remains equivalent to the original.
The process of changing the denominator of a fraction to a rational number in this way is called rationalising (or rationalizing) the denominator.
On this page, we will look at cases where the denominator is a single surd.
Step by step guide: Rationalising surds (coming soon)
In order to rationalise the denominator:
Get your free rationalising the denominator worksheet of 20+ questions and answers. Includes reasoning and applied questions.
DOWNLOAD FREEGet your free rationalising the denominator worksheet of 20+ questions and answers. Includes reasoning and applied questions.
DOWNLOAD FREERationalise the denominator:
In this example this is already done.
2Multiply both the numerator and the denominator by the surd in the denominator.
So here we multiply the top and the bottom of the fraction by root 2:
Numerator:
Denominator:
So the full expression becomes:
The denominator is now rationalised, because 2 is a rational number.
3Simplify the answer fully.
So the final answer actually simplifies to
Rationalise the denominator:
Simplify any surds, if necessary.
Root 45 will simplify:
Multiply both the numerator and the denominator by the surd in the denominator.
So here we multiply the top and the bottom of the fraction by root 5:
Numerator:
Denominator:
So the full expression becomes:
The denominator is now rationalised, because 15 is a rational number.
Simplify the answer fully.
So the final answer simplifies to
Rationalise the denominator:
Simplify any surds, if necessary.
Both surds are already in their simplest forms.
Multiply both the numerator and the denominator by the surd in the denominator.
So here we multiply the top and the bottom of the fraction by root 7:
Numerator:
Denominator:
So the full expression becomes:
The denominator is now rationalised, because 7 is a rational number.
Simplify the answer fully.
is already in its simplest form; there are no common factors of the integers and there is no square factor of 21 to simplify the root.
Rationalise the denominator:
Simplify any surds, if necessary.
Root 8 will simplify:
Multiply both the numerator and the denominator by the surd in the denominator.
So here we multiply the top and the bottom of the fraction by root 3:
Numerator:
Denominator:
So the full expression becomes:
The denominator is now rationalised, because 3 is a rational number.
Simplify the answer fully
So the final answer simplifies to:
4 \sqrt{6}Rationalise the denominator:
Simplify any surds, if necessary.
Root 12 will simplify:
Root 108 will also simplify:
So the numerator is:
and because these are like surds, it will simplify to
Multiply both the numerator and the denominator by the surd in the denominator.
So here we multiply the top and the bottom of the fraction by root 6:
Numerator:
Denominator:
So the full expression becomes:
The denominator is now rationalised, because 6 is a rational number.
Simplify the answer fully.
Root 18 simplifies further:
So the expression becomes:
Finally, 36\div6=6 , so the fully simplified answer is:
Always make sure you multiply both top and bottom of the fraction by the surd in the denominator of the fraction.
E.g.
This can be simplified, because 3 is a factor of 3 , 9 and 6 . However, \frac{4+6 \sqrt{2}}{3} cannot be simplified further, because 3 isn’t a factor of 4 .
Rationalise the denominator is part of our series of lessons to support revision on surds. You may find it helpful to start with the main surds lesson for a summary of what to expect, or use the step by step guides below for further detail on individual topics. Other lessons in this series include:
1. Rationalise the denominator \frac{1}{\sqrt{5}}
Multiply the numerator and denominator by root 5 .
2. Rationalise the denominator \frac{7}{\sqrt{3}}
Multiply the numerator and denominator by root 3 .
3. Rationalise the denominator \frac{20}{\sqrt{40}}
Simplify root 40 first, then multiply the top and bottom by root 10 . Alternatively, you could multiply the top and bottom by root 40 , but remember to simplify your answer fully at the end.
4. Rationalise the denominator \frac{5 \sqrt{3}}{\sqrt{10}}
Multiply the top and bottom by root 10 , using the multiplication rule of surds: \sqrt{3} \times \sqrt{10}=\sqrt{30}
Finally, simplify the integers: \frac{5}{10}=\frac{1}{2}
5. Rationalise the denominator \frac{5}{4-\sqrt{2}}
Multiply the top and bottom by 4-\sqrt{2} to give: \frac{5(4-\sqrt{2})}{(4+\sqrt{2})(4-\sqrt{2})}
The denominator simplifies to 16-2=14 , and the numerator expands to become 20-5 \sqrt{2}
6. Rationalise the denominator \frac{2 \sqrt{5}}{3-\sqrt{5}}
Multiply the top and bottom by 3-\sqrt{5} to give: \frac{2\sqrt{5}(3-\sqrt{5})}{(3-\sqrt{5})(3+\sqrt{5})}
The denominator simplifies to 9-5=4 , and the numerator expands to become 6 \sqrt{5}-10 . Divide through by 2 to give the fully simplified final answer.
1. Rationalise the denominator: \frac{12}{2\sqrt{2}}
(2 marks)
\frac{12\sqrt{2}}{4} or \frac{6\sqrt{2}}{2}
(1)
3\sqrt{2}
(1)
2. Simplify fully \frac{(2\sqrt{6}-2)(2\sqrt{6}+2)}{\sqrt{10}}
(3 marks)
(2\sqrt{6}-2)(2\sqrt{6}+2)=24+4\sqrt{6}-4\sqrt{6}-4
Any two terms correct
(1)
All four correct
(1)
\frac{20}{\sqrt10}=\frac{20\sqrt{10}}{10}=2\sqrt{10}
(1)
3. Show that \frac{\sqrt{28}-8}{\sqrt{7}+2} can be written as 10-4\sqrt{7}
(5 marks)
\sqrt{28}=2\sqrt{7}
(1)
\frac{(\sqrt{28}-8)(\sqrt{7}-2)}{(\sqrt{7}+2)(\sqrt{7}-2)}
(1)
\frac{30-12\sqrt{7}}{3} ( 1 mark for numerator, 1 mark for denominator)
(2)
10-4\sqrt{7}
(1)
You have now learned how to:
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