| Number | Absolute Value | |||||
| 10 | 10 | =ABS(C4) | ||||
| -10 | 10 | =ABS(C5) | ||||
| 1.25 | 1.25 | =ABS(C6) | ||||
| -1.25 | 1.25 | =ABS(C7) | ||||
| What Does it Do ? | ||||||
| This function calculates the value of a number, irrespective of whether it is positive or negative. | ||||||
| Syntax | ||||||
| =ABS(CellAddress or Number) | ||||||
| Formatting | ||||||
| The result will be shown as a number, no special formatting is needed. | ||||||
| Example | ||||||
| The following table was used by a company testing a machine which cuts timber. | ||||||
| The machine needs to cut timber to an exact length. | ||||||
| Three pieces of timber were cut and then measured. | ||||||
| In calculating the difference between the Required Length and the Actual Length it does | ||||||
| not matter if the wood was cut too long or short, the measurement needs to be expressed as | ||||||
| an absolute value. | ||||||
| Table 1 shows the original calculations. | ||||||
| The Difference for Test 3 is shown as negative, which has a knock on effect | ||||||
| when the Error Percentage is calculated. | ||||||
| Whether the wood was too long or short, the percentage should still be expressed | ||||||
| as an absolute value. | ||||||
| Table 1 | ||||||
| Test Cut |
Required Length |
Actual Length |
Difference | Error Percentage |
||
| Test 1 | 120 | 120 | 0 | 0% | ||
| Test 2 | 120 | 90 | 30 | 25% | ||
| Test 3 | 120 | 150 | -30 | -25% | ||
| =D36-E36 | ||||||
| Table 2 shows the same data but using the =ABS() function to correct the calculations. | ||||||
| Table 2 | ||||||
| Test Cut |
Required Length |
Actual Length |
Difference | Error Percentage |
||
| Test 1 | 120 | 120 | 0 | 0% | ||
| Test 2 | 120 | 90 | 30 | 25% | ||
| Test 3 | 120 | 150 | 30 | 25% | ||
| =ABS(D45-E45) | ||||||
Monday, 2 June 2014
ABS formula in MS Excel
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