The absolute deviation of 10, 7, 13, 10, 8 is 9.6.
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Absolute value of -13 is 13.
The absolute value of -13 would be 13. This is used in math.
Well, the negatives would become positives because they're in between the absolute value. (| |). For an example: | 5 - 2 + 13- 3| Would become |5+ -2 + 13 + -3| then if you add them, you get |3 + 10| and 10 + 3 is |13| which becomes 13. So basically, any equation in the absolute value will be positive, unless there's a negative sign on the outside of the symbol. Like this for an example, would be negative: -|5+ 3+10| Add them and you get: -|18| take the absolute value off, and you get a -18.
It is approx 2.828
The mean absolute deviation is 2
It is 2.8
A large standard deviation indicates that the distribution is heavily weighted far from the mean. Take the following example: {1,1,1,1,1,19,19,19,19,19} Mean is 10 and StDev = 9.49 Now look at this data set: {5, 6, 7, 8, 9, 11, 12, 13, 14, 15} Mean is still 10, but StDev = 3.5
49.30179172 is the standard deviation and 52 is the mean.
The absolute value of a fraction would be done by this:ex. 3/10 is equivalent to .30 or just .3 the absolute value of .3 is .3 because an absolute value is the number of spaces it takes to get to zero on a number line. KILL ME
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Absolute value can be defined as the distance from the expression to zero. Therefore, the absolute value of 13 is 13.
Absolute value of 13 is 13.
Absolute value of -13 is 13.
The absolute value of 13 is 13.
3.898717738 is the standard deviation.
Absolute value of -13 is 13.