 |
| 1 banana |
 |
| 2 apples |
 |
| 3 cupcakes |
The last digit of a measurement is just an estimate, and absolute uncertainty is about looking at the amount of error a measurement could have.
Method 1:
Discard data that doesn't fit. Calculate the average measurement. Then find the largest difference between the data and the average measurement. That (+) is the absolute uncertainty.
E.g.
5 students measure the length of a classroom with metre sticks. Here is the data they collected. Find the absolute uncertainty.
Student | Measurement |
1 | 10.236 m |
2 | 10.280 m |
3 | 10.201 m |
4 | 10.102 m |
5 | 10.258 m |
1) Cancel out student #4's measurement because it doesn't come close to the other students.
2) Find the mean measurement. [10.236+ 10.280 + 10.201 + 10.258 = 40.975/4 = 10.243 m]
3) Largest measurement - average = 0.037
4) Smallest measurement - average = -0.042
5) Absolute uncertainty = 10.243 + 0.042 m.
Method 2:
Every measuring instrument has some degree of uncertainty. A ruler can only measure to mm. Since we always use 0.1 of the smallest measurement, we would state the absolute uncertainty as +0.001 m.
Relative Uncertainty
Relative uncertainty is a ratio of the absolute uncertainty/estimated measurement. It is stated in %. The greater the quantity and the less absolute uncertainty, the more precise a measurement is.
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