Average rate of return
Businesses often have to make investmentMoney or capital put into a business for profitable returns, for example interest or income. decisions. This might involve deciding which piece of equipment or machinery to buy, or whether to move to bigger premises. Any investment is made in the hope that in return the business will see its profitsThe amount of money made after all expenses have been paid. increase.
Anything that can provide information about the potential size of the return from an investment decision can be helpful. This is because a business will know the return it could get from leaving the money it is going to invest in the bank, so it can compare this number with the estimate of the return it could get from investing the money instead. For example, if a business knows that it can gain 1% interest on money in its bank account, then any investment that would use that money should return more than 1% in profit. Otherwise, the business would be better off financially by leaving the money in the bank.
One calculation that can help a business to compare different investment options is the average rate of returnA method of comparing the profitability of different choices over the expected life of an investment..
Calculating the average rate of return
The average rate of return is a way of comparing the profitability of different choices over the expected life of an investment. To do this, it compares the average annual profit of an investment with the initial cost of the investment. This is necessary in order to compare investments that might last for different periods of time.
To calculate the average rate of return, a business will use the following formula:
\(\text{Average rate of return (\%)}=\)
\(\frac{\text{Average annual profit (total profit ÷ number of years)}}{\text{Cost of investment}}\times100\)
For example, a small local building business has decided to invest in a small excavator, since it will allow jobs to be completed more quickly and therefore more work to be completed.
The owner has identified the excavator that is most suitable, but needs to decide whether to invest in a brand new excavator or a used one. The used excavator may be less reliable and will need to be replaced after four years. The business knows the following:
| Option | New | Used |
| Cost of excavator | £40,000 | £25,000 |
| Additional profit in year 1 | £14,000 | £9,500 |
| Additional profit in year 2 | £12,000 | £7,500 |
| Additional profit in year 3 | £9,000 | £6,500 |
| Additional profit in year 4 | £8,000 | £4,500 |
| Additional profit in year 5 | £7,000 | £0 |
| Total additional profit | £50,000 | £28,000 |
| The average rate of return for each option would be calculated as follows: | ||
| Average annual profit = | £50,000 ÷ 5 = £10,000 | £28,000 ÷ 4 = £7,000 |
| Average rate of return = | (£10,000 ÷ £40,000) × 100 = 25% | (£7,000 ÷ £25,000) × 100 = 28% |
| Option | Cost of excavator |
|---|---|
| New | £40,000 |
| Used | £25,000 |
| Option | Additional profit in year 1 |
|---|---|
| New | £14,000 |
| Used | £9,500 |
| Option | Additional profit in year 2 |
|---|---|
| New | £12,000 |
| Used | £7,500 |
| Option | Additional profit in year 3 |
|---|---|
| New | £9,000 |
| Used | £6,500 |
| Option | Additional profit in year 4 |
|---|---|
| New | £8,000 |
| Used | £4,500 |
| Option | Additional profit in year 5 |
|---|---|
| New | £7,000 |
| Used | £0 |
| Option | Total additional profit |
|---|---|
| New | £50,000 |
| Used | £28,000 |
| Option | The average rate of return for each option would be calculated as follows: |
|---|---|
| New | |
| Used |
| Option | Average annual profit = |
|---|---|
| New | £50,000 ÷ 5 = £10,000 |
| Used | £28,000 ÷ 4 = £7,000 |
| Option | Average rate of return = |
|---|---|
| New | (£10,000 ÷ £40,000) × 100 = 25% |
| Used | (£7,000 ÷ £25,000) × 100 = 28% |
This shows that buying the used excavator would be the best financial decision, as the return from the money invested would be higher.
Question
A business is considering whether to extend its existing factory or move to bigger premises. Using the information provided below, calculate the average annual return for both options and recommend the option that the business should choose.
| Option | Extend | Move |
| Costs involved | £150,000 | £375,000 |
| Additional profit in year 1 | £36,000 | £54,000 |
| Additional profit in year 2 | £23,000 | £47,000 |
| Additional profit in year 3 | £13,000 | £34,000 |
| Option | Costs involved |
|---|---|
| Extend | £150,000 |
| Move | £375,000 |
| Option | Additional profit in year 1 |
|---|---|
| Extend | £36,000 |
| Move | £54,000 |
| Option | Additional profit in year 2 |
|---|---|
| Extend | £23,000 |
| Move | £47,000 |
| Option | Additional profit in year 3 |
|---|---|
| Extend | £13,000 |
| Move | £34,000 |
\(\text{Average rate of return (\%)}=\)
\(\frac{\text{Average annual profit (total profit ÷ number of years)}}{\text{Cost of investment}}\times100\)
| Total additional profit | £72,000 | £135,000 |
| Average annual profit = | £72,000 ÷ 3 = £24,000 | £135,000 ÷ 3 = £45,000 |
| Average rate of return = | (£24,000 ÷ £150,000) × 100 = 16% | (£45,000 ÷ £375,000) × 100 = 12% |
| Total additional profit |
| £72,000 |
| £135,000 |
| Average annual profit = |
| £72,000 ÷ 3 = £24,000 |
| £135,000 ÷ 3 = £45,000 |
| Average rate of return = |
| (£24,000 ÷ £150,000) × 100 = 16% |
| (£45,000 ÷ £375,000) × 100 = 12% |
The best option financially would be to extend the existing factory.
