Power Of 0

Here you will learn everything you need to know about raising terms to the power of 0 for GCSE & iGCSE maths (Edexcel, AQA and OCR). 

Look out for the laws of indices worksheets and exam questions at the end.

What is raising a value to the power of 0?

Any non-zero value raised to the power of 0 is equal to 1.

What is raising a value to the power of 0?

What is raising a value to the power of 0?

Laws of indices worksheets (includes power of 0)

Laws of indices worksheets (includes power of 0)

Laws of indices worksheets (includes power of 0)

Get your free to the power of 0 worksheet of 20+ laws of indices questions and answers. Includes reasoning and applied questions.

DOWNLOAD FREE
x
Laws of indices worksheets (includes power of 0)

Laws of indices worksheets (includes power of 0)

Laws of indices worksheets (includes power of 0)

Get your free to the power of 0 worksheet of 20+ laws of indices questions and answers. Includes reasoning and applied questions.

DOWNLOAD FREE

Related lessons on laws of indices

Power of 0 is part of our series of lessons to support revision on laws of indices. You may find it helpful to start with the main laws of indices 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:

How to raise something to the power of 0

Raising a term to the zeroth power means multiplying the term by itself zero times. This will give 1.

Let’s look at this in three different ways:

1 Division

When we divide something by itself we get 1.

E.g.

\[\begin{aligned} &5 \div 5=1 \\\\ &\frac{5}{6} \div \frac{5}{6}=1 \\\\ &2 x \div 2 x=1 \end{aligned}\]

So,

\[x^{2} \div x^{2}=1\]

Using the division power rule (exponent rule) when we divide two terms with the same base we subtract the powers.

\[x^{2} \div x^{2}=x^{2-2}=x^{0}\]

So this means that

\[x^{0}=1\]

21 x the base

Another way to think about this is we can write:

\[2^{3}=2 \times 2 \times 2\]

Which is exactly the same as

\[2^{3}=1 \times 2 \times 2 \times 2\]

In other words we can think of 23 as telling us to do 1 multiplied by 2 however many times the power tells us, in this case 3 times.

If we continue this pattern we get the following:

\begin{array}{l} 2^{3}=1 \times 2 \times 2 \times 2 \\ 2^{2}=1 \times 2 \times 2 \\ 2^{1}=1 \times 2 \\ 2^{0}=1 \end{array}

In other words we can think of 20 as telling us to do 1 multiplied by 2 however many times the power tells us, in this case 0 times.

So,

\[2^{0}=1\]

3Comparing other powers of the same base

We could also think about it like this

\[\begin{aligned} 2^{2}&=1 \times 2 \times 2=4 \\\\ 2^{1}&=1 \times 2=2 \\\\ 2^{0}&=1 \\\\ 2^{-1}&=1 \times \frac{1}{2}=\frac{1}{2} \\\\ 2^{-2}&=1 \times \frac{1}{2} \times \frac{1}{2}=\frac{1}{4} \end{aligned}\]

Each time the index power decreases by 1, we divide the value by whatever the base is.

In this case we divide by 2.

So,

\[2^{0}=1\]

Whichever way we look at it, if a term has a zero exponent (it is raised to the power of zero) its value is 1.

Note – Raising 0 to the power of 0 is a complicated problem and its not as easy as saying the answer is 1.

There are many different arguments to this problem and some conclude that the answer should be 1 and others say it should be 0. A lot of mathematicians like to classify 0^{0} as an undefined value and its something that gets explored using much more complicated mathematical techniques.

To the power of 0 examples

Example 1: no coefficient in front of base

Simplify:

\[a^{0}\]

= 1

Note: Anything to the power of zero is 1.

Example 2: coefficient in front of base

Simplify:

\[6a^{0}\]

= 6(1) = 6

We can see that

\[6 \times 1=6\]

Multiplying anything by 1 leaves it unchanged; this is called the multiplicative identity.

Example 3: coefficient in front of base and positive powers

Simplify:

\[\frac{2 x^{0}}{4^{2}}\]

\[=\frac{2(1)}{4^{2}}=\frac{2}{16}=\frac{1}{8}\]

Example 4: with negative exponents and decimals

This example uses negative numbers as the indices. It is a good idea to check out our negative indices page to see how to change a negative index on the numerator into a positive number on the denominator.

Simplify:

\[2.5 x^{0} \div 2^{-2}\]

\[=2.5(1) \div \frac{1}{2^{2}} \]
\[=2.5 \div \frac{1}{4} \]
\[=2.5 \times 4 \]
\[=10\]

Common misconceptions

  • Confusing integer and fractional powers

Raising a term to the power of 2 means we square it 

E.g.

\[a^{2}=a \times a\]

Raising a term to the power of 

\[\frac{1}{2}\]

means we find the square root of it

E.g.

\[a^{\frac{1}{2}}=\pm \sqrt{a}\]

Raising a term to the power of 3 means we cube it 

E.g

\[a^{3}=a \times a \times a\]

Raising a term to the power of

\[\frac{1}{3}\]

means we find the cube root of it

E.g.

\[a^{\frac{1}{3}}=\sqrt [3] {a}\]

  • Indices, powers or exponents

Indices can also be called powers or exponents.

  • Raising any term or real number to the power of 0 is 1.

Regardless of whether it is a whole number or a decimal or a fraction, or a positive or a negative number, or a rational number (e.g. 4, 0.25, ½ etc.), or an irrational number (e.g. π, √5,  e (Euler’s number) etc.) raising a base number or a base variable to the power 0 will give a value of 1. 

Raising algebraic polynomials to the power of 0 is also 1.

Any index that is a non-zero number will not give 1 unless the base value is 1.

Practice to the power of 0 questions

1. Simplify

 

x^{0}

0
GCSE Quiz False

x
GCSE Quiz False

1
GCSE Quiz True

x^{0}
GCSE Quiz False

This is because any constant or variable raised to the power zero is equal to 1

2. Simplify

 

8 x^{0}

8
GCSE Quiz True

80
GCSE Quiz False

1
GCSE Quiz False

8x
GCSE Quiz False

This is because the variable, x , raised to the power zero equals 1. Therefore, we have 8 lots of 1 , which is 8 .

3. Simplify

 

2^{2} x^{0}

1
GCSE Quiz False

4x
GCSE Quiz False

4
GCSE Quiz True

x^{4}
GCSE Quiz False

This is because the variable, x , raised to the power zero equals 1. The coefficient, 2^2 is equal to 4 . Therefore, we have 4 lots of 1 , which is 4 .

To the power of 0 GCSE questions

1. Work out the value of

8 ^ {0}

(1 mark)

Show answer

1

(1)

2. Simplify

\frac { x ^ {0} \times x ^ {5} }{ x ^ {5} \times x ^ {-5} }

(2 marks)

Show answer

  x^{0}=1 \text \quad { and } \quad x^{5} \times x^{-5}=x^{0}=1 \quad(1)

\frac {1 \times x ^ {5} } {1} = x ^ {5}\quad(1)

(2)

3. Simplify

\left(\left(4^{\frac{1}{2}}\right)^{3}\right)^{0}

(1 mark)

Show answer

1

(1)

Learning checklist

You have now learned how to:

  • Simplify expressions involving the laws of indices
  • Calculate with roots, and with integer and fractional indices

Still stuck?

Prepare your KS4 students for maths GCSEs success with Third Space Learning. Weekly online one to one GCSE maths revision lessons delivered by expert maths tutors.

GCSE Benefits

Find out more about our GCSE maths tuition programme.