geometric_mean | R Documentation |
The Geometric mean is the nth-root of the product of n
input values.
Common uses include computing economic utility. For example, the geometric mean utility of
c(1, 2, 10)
is
(1 * 2 * 10)^\frac{1}{3}
= 2.7 not 4.3 (the arithmetic mean of utility).
geometric_mean(x, na.rm = c(TRUE, FALSE))
x |
A vector of values. |
na.rm |
remove NAs by default. |
Geometric mean of x
harmonic_mean()
, mean()
Other Miscellaneous Stats Functions:
FishersMethod()
,
SE_from_p()
,
harmonic_mean()
,
oddsratio()
,
reliability()
,
umx
,
umxCov2cor()
,
umxHetCor()
,
umxParan()
,
umxWeightedAIC()
,
umx_apply()
,
umx_cor()
,
umx_means()
,
umx_r_test()
,
umx_round()
,
umx_scale()
,
umx_var()
geometric_mean(c(50, 100))
# For a given sum, geometric mean is maximised when all values are equal:
geometric_mean(c(75,75))
v = c(1, 149); c(sum(v), geometric_mean(v), mean(v), median(v))
# 150.00000 12.20656 75.00000 75.00000
# Underlying logic
sqrt(50 * 100)
# Alternate form using logs
exp(mean(log(c(50 *100))))
# Reciprocal duality
1/geometric_mean(c(100, 50))
geometric_mean(c(1/100, 1/50))
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