Position to term rules or nth term
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Each term in a sequence has a position. The first term is in position 1, the second term is in position 2 and so on.
Position to terms rules use algebra to work out what number is in a sequence if the position in the sequence is known. This is also called the nth term, which is a position to term rule that works out a term at position \(n\), where \(n\) means any position in the sequence.
Working out position to term rules
Example
Work out the position to term rule for the following sequence: 5, 6, 7, 8, ...
First, write out the sequence and the positions of each term.
| Position | 1 | 2 | 3 | 4 |
| Term | 5 | 6 | 7 | 8 |
| Position |
|---|
| 1 |
| 2 |
| 3 |
| 4 |
| Term |
|---|
| 5 |
| 6 |
| 7 |
| 8 |
Next, work out how to go from the position to the term.
| Position | 1 | 2 | 3 | 4 |
| Operation | \(+4\) | \(+4\) | \(+4\) | \(+4\) |
| Term | 5 | 6 | 7 | 8 |
| Position |
|---|
| 1 |
| 2 |
| 3 |
| 4 |
| Operation |
|---|
| \(+4\) |
| \(+4\) |
| \(+4\) |
| \(+4\) |
| Term |
|---|
| 5 |
| 6 |
| 7 |
| 8 |
In this example, to get from the position to the term, take the position number and add 4.
If the position is \(n\), then the position to term rule is \(n + 4\).
The nth term
The nth term of a sequence is the position to term rule using \(n\) to represent the position number.
Example
Work out the nth term of the following sequence: 3, 5, 7, 9, ...
Firstly, write out the sequence and the positions of the terms.
As there isn't a clear way of going from the position to the term, look for a common difference between the terms. In this case, there is a difference of 2 each time.
This common difference describes the times tables that the sequence is working in. In this sequence it's the 2 times tables.
Write out the 2 times tables and compare each term in the sequence to the 2 times tables.
| Position | 1 | 2 | 3 | 4 |
| Operation | \(\times 2\) | \(\times 2\) | \(\times 2\) | \(\times 2\) |
| 2 times table | 2 | 4 | 6 | 8 |
| Operation | \(+ 1\) | \(+ 1\) | \(+ 1\) | \(+ 1\) |
| Term | 3 | 5 | 7 | 9 |
| Position |
|---|
| 1 |
| 2 |
| 3 |
| 4 |
| Operation |
|---|
| \(\times 2\) |
| \(\times 2\) |
| \(\times 2\) |
| \(\times 2\) |
| 2 times table |
|---|
| 2 |
| 4 |
| 6 |
| 8 |
| Operation |
|---|
| \(+ 1\) |
| \(+ 1\) |
| \(+ 1\) |
| \(+ 1\) |
| Term |
|---|
| 3 |
| 5 |
| 7 |
| 9 |
To get from the position to the term, first multiply the position by 2 then add 1. If the position is \(n\), then this is \(2 \times n + 1\) which can be written as \(2n + 1\).
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