Percent Error Calculator

Use this calculator to compute the percent error of a normal distribution. Percentage error is a measurement of the discrepancy between an observed (measured) and a true (expected, accepted, known etc.) value.

Modify the values and click the Calculate button to use

Observed Value

True Value

Percentage Error

Percentage error is a measurement of the discrepancy between an observed (measured) and a true (expected, accepted, known etc.) value. It is typically used to compare measured vs. known values as well as to assess whether the measurements taken are valid.

When measuring data, whether it be the density of some material, standard acceleration due to gravity of a falling object, or something else entirely, the measured value often varies from the true value. Error can arise due to many different reasons that are often related to human error, but can also be due to estimations and limitations of devices used in measurement. Calculating the percentage error provides a means to quantify the degree by which a measured value varies relative to the true value. A small percentage error means that the observed and true value are close while a large percentage error indicates that the observed and true value vary greatly.

Computing Percentage Error

The computation of percentage error involves the use of the absolute error, which is simply the difference between the observed and the true value. The absolute error is then divided by the true value, resulting in the relative error, which is multiplied by 100 to obtain the percentage error. Refer to the equations below for clarification.

Absolute error = |V_observed – V_true|

Relative error = |V_observed – V_true| / V_true

Percentage error = (|V_observed – V_true| / V_true) × 100%

For example, if the observed value is 56.891 and the true value is 62.327, the percentage error is:

|56.891 – 62.327| / 62.327 × 100% = 8.722%

Negative Percentage Error

Based on the formula above, when the true value is positive, percentage error is always positive due to the absolute value. In most cases, only the error is important, and not the direction of the error. However, it is possible to have a negative percentage error. This occurs if we do not take the absolute value of the error, the observed value is smaller than the true value, and the true value is positive.

For example, given an observed value of 7, a true value of 9, and allowing for a negative percentage, the percentage error is:

(7 – 9) / 9 × 100% = -22.222%

A negative percentage error simply means that the observed value is smaller than the true value. If the observed value is larger than the true value, the percentage error will be positive. Thus, in the context of an experiment, a negative percentage error just means that the measured value is smaller than expected. It does not indicate that the observed value is somehow better than expected, since the best possible outcome for percentage error is that the observed and true values are equal, resulting in a percentage error of 0.