大象传媒

Multiples and factors - EdexcelPowers and roots - Higher

Prime numbers, factors and multiples are essential building blocks for a lot of number work. Knowledge of how to use these numbers will improve arithmetic and make calculations more efficient.

Part of MathsNumber

Powers and roots - Higher

Powers, or , are ways of writing numbers that have been multiplied by themselves:

  • \(2 \times 2\) can be written as 22 (2 squared)
  • \(2 \times 2 \times 2\) can be written as 23 (2 cubed)
  • \(2 \times 2 \times 2 \times 2\) can be written as 24 (2 to the power of 4), and so on

Roots

Roots are the opposite of powers. As 2 squared is 4, then a square root of 4 must be 2. \(2^2 = 4\). Reversing this gives \(\sqrt{4} = 2\).

To find square roots or cube roots, work backwards from square numbers and cube numbers. If you know that \(15^2 = 225\), then you also know that \(\sqrt{225} = 15\). If you know that \(5^3 = 125\), then you also know that \(\sqrt[3]{125} = 5\).

Estimating powers and roots

Powers of any number can be estimated by finding the nearest above and below the number.

Example

Estimate the value of \(3.7^3\).

3.7 is between 3 and 4. \(3^3 = 27\) and \(4^3 = 64\), so the value of \(3.7^3\) will be between 27 and 64, and closer to 64 than 27 because 3.7 is closer to 4 than 3. So an estimate for \(3.7^3\) would be 50 (the actual value is 50.653).

3.7 is between 3 and 4. 3 to the power of 3 = 27 and 43 = 64, so the value of 3.7 to the power of 3 will be between 27 and 64, closer to 64 than 27 because 3.7 is closer to 4 than 3.

Roots can be estimated by finding the roots of numbers that have integer values above and below the number.

Example

Estimate the value of \(\sqrt{53}\).

The square numbers above and below 53 are \(49 = 7^2\) and \(64 = 8^2\). This means that the value of \(\sqrt{53}\) is between 7 and 8, and closer to 7 because 53 is closer to 49 than it is to 64. So an estimate for \(\sqrt{53}\) is 7.3 (the exact value is 7.280鈥).