The difference between low percent error and high percent error is one is low and the other is high
The mean absolute percent prediction error (MAPE), .The summation ignores observations where yt = 0.
ratios and proportions units, dimensions, and conversions logarithms arithmetic mean, error, percent error, and percent deviation just to name a few
The error in its area is then 2 percent....
No.
The difference between low percent error and high percent error is one is low and the other is high
Sometimes you will take the absolute value of the percent error because your estimated number could be less than the theoretical, meaning the calculation is negative. But an absolute value is always positive. A percent error can be left as a negative though, and this would be perfectly acceptable (or even preferred) depending on what you're doing.Answer:In the sciences, a negative percent error indicates a low result. If you have a 0% error, then your observed (lab) result was exactly the same as the theoretical result. A 5% error could mean that your observed result was a little high. A negative percent error is possible; if your observed results were lower than the expected, then you would have a negative percent error. A -5% error could mean that your results were a little low. Having a negative percent error isn't worse than positive percent error -- it could mean the same thing. If you were to have a choice in having a 20% error and a -5% error, the negative percent error is more accurate.
If it's high that means it's very off and away from the actual value. If you find a low percent error it is very close or close to the true value.
high percent error is the absolute value of something that is multiplied
If you mean percent error of 3.14 versus pi, which is 3.14159..., the error is only 0.05%
It is an error (in science).
The mean absolute percent prediction error (MAPE), .The summation ignores observations where yt = 0.
Percent error.
ratios and proportions units, dimensions, and conversions logarithms arithmetic mean, error, percent error, and percent deviation just to name a few
Kinetic Energy = 1/2 (mass) (velocity)2Measurement of mass is in error by 3%.Measurement of velocity is in error by 4%.If both are low, then KE is measured as(True KE) x (.97) x (.96)2 = 0.894 TKE = 10.6% low.If both are high, then KE is measured as(True KE) x (1.03) x (1.04)2 = 1.114 TKE = 11.4% high.If one is high and the other low, then the net error is in between these limits.
The error in its area is then 2 percent....
1/100