What is the Difference Between Accuracy and Precision in Chemistry?
🆚 Go to Comparative Table 🆚The difference between accuracy and precision in chemistry lies in how close a measurement is to the true or accepted value and how close a series of measurements are to one another.
- Accuracy: This refers to the closeness of a measured value to a standard or known value. In other words, it is the degree of correctness of a measurement. For example, if you weigh a given substance and obtain a result of 3.2 kg, but the actual weight is 3.1 kg, your measurement is considered accurate because it is close to the true value.
- Precision: This is a measure of how close a series of measurements are to one another. It refers to the degree of exactness or consistency in the results of multiple measurements. If you weigh the same substance five times and get 3.2 kg each time, then your measurement is considered precise because the results are consistent with each other, even if they are not necessarily close to the true value.
It is essential for scientists to strive for both accuracy and precision in their measurements. A precise measurement is highly reproducible, even if it is not near the correct value. On the other hand, a highly accurate measurement may be random if it lacks precision. In a chemistry laboratory situation, high precision with low accuracy often results from systematic errors, such as using a flawed measuring tool or making the same mistake repeatedly. Both accuracy and precision are crucial for obtaining reliable and valid results in scientific experiments.
Comparative Table: Accuracy vs Precision in Chemistry
Here is a table that highlights the differences between accuracy and precision in chemistry:
| Feature | Accuracy | Precision |
|---|---|---|
| Definition | Accuracy refers to how close a measured value is to the true or accepted value. | Precision refers to the level of agreement among a set of results, indicating how repeatable or reproducible the measurements are. |
| Significance | Accuracy deals with the closeness of the experimental reported average to the true value. | Precision deals with the reproducibility or repeatability of the measurements. |
| Measurement | Accuracy is expressed in terms of the difference between the experimental result and the true or accepted value. | Precision is expressed in terms of the deviation of a set of results from the mean or from each other. |
| Unit of Measurement | Accuracy is often expressed in terms of percentage or parts per thousand (ppt) relative to the true value. | Precision is often expressed in terms of the standard deviation or the coefficient of variation. |
| Examples | For example, if the true density of a sample is 0.1100 g/L and the experimental average is 0.1095 g/L, the relative error (in ppt) is -5 ppt. | If a set of replicate measurements has a standard deviation of 0.001 g/L, the precision is expressed in terms of this standard deviation. |
In summary, accuracy is concerned with how close a measured value is to the true value, while precision is concerned with the level of agreement among a set of results.
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