Difference between revisions of "Accurate"
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:*Removing [[Zero Error|zero errors]] by [[Calibration|calibrating]] [[Measuring Instrument|instruments]] before the [[investigation]]. | :*Removing [[Zero Error|zero errors]] by [[Calibration|calibrating]] [[Measuring Instrument|instruments]] before the [[investigation]]. | ||
:*[[Control Variable|Controlling]] all the [[variable]]s except for the [[Independent Variable|independent variable]] and the [[Dependent Variable]]. | :*[[Control Variable|Controlling]] all the [[variable]]s except for the [[Independent Variable|independent variable]] and the [[Dependent Variable]]. | ||
| − | : If there are [[Random Error|random errors]] and a small [[Sample Size|sample size]] taking [[repeat]] [[ | + | : If there are [[Random Error|random errors]] and a small [[Sample Size|sample size]] taking [[repeat]] [[reading]]s, removing [[anomaly|anomalies]] and calculating an [[Mean Average|average]] can improve the '''accuracy'''. |
: If there are [[Systematic Error|systematic error]]s or [[Zero Error|zero errors]] the [[results]] can be improved by finding the source of the [[error]] and correcting it. | : If there are [[Systematic Error|systematic error]]s or [[Zero Error|zero errors]] the [[results]] can be improved by finding the source of the [[error]] and correcting it. | ||
Revision as of 19:11, 8 April 2019
Key Stage 4
Meaning
Results are accurate if they are close to the true value.
About Accuracy
- Accuracy is achieved by:
- Removing systematic errors from the readings.
- Removing zero errors by calibrating instruments before the investigation.
- Controlling all the variables except for the independent variable and the Dependent Variable.
- If there are random errors and a small sample size taking repeat readings, removing anomalies and calculating an average can improve the accuracy.
- If there are systematic errors or zero errors the results can be improved by finding the source of the error and correcting it.
Accuracy vs Precision
| Method | Test 1 | Test 2 | Test 3 | Average | Range |
| Method 1 | 3.27 | 3.09 | 3.01 | 3.12 | 0.26 |
| Method 2 | 3.91 | 3.88 | 3.88 | 3.89 | 0.03 |
| Method 3 | 3.57 | 2.89 | 2.93 | 3.13 | 0.68 |
Method 1: The most accurate measurements because they are the closest to pi but they are not very precise because they have a range of 0.26. Method 2: These are the least accurate measurements because they are the furthest from pi but they are very precise because they have a range of only 0.03. Method 3: Each measurement is not accurate because they are far from pi, they are also the least precise because they have a range of 0.68. However, the average is the most accurate as it is the closes to pi. | |||||