16. Geometric mean of two numbers is the square root of their product.
√9x1=3
1 and 1/2.
Geometric progression 1, 4, 16, 64, 256 would seem to fit...
√1 x √500 = 1 x 22.36068 = 22.36068
geometric mean is: (5 x 135)1/2 = √675 ≈ 25.98 To find the geometric mean of n numbers, multiply them together and take the nth root, so the geometric mean of x1, x2, ..., xn is: geometric mean = (Π xr)1/n for r = 1, 2, .., n
1.The Geometric mean is less then the arithmetic mean. GEOMETRIC MEAN < ARITHMETIC MEAN 2.
Geometric mean of 2.8 and 1 is 1.6733200530681511. Look at link: "Calculation of the geometric mean of two numbers". Cheers ebs
16. Geometric mean of two numbers is the square root of their product.
31.62278
The geometric mean of n numbers (t{1}, t{2}, ..., t{n}) is given by (Π t{n})^(1/n) → geometric mean of 8.5 and 12.4 = (8.5 × 12.4)^(1/2) = 10.26645... ≈ 10.266
Their geometric mean is:sqrt(42*(1/9)2)=sqrt(16*(1/81))=sqrt(16/81)=4/9-------------------The geometric mean of a set of n terms is equal to the nth root of the product of those n terms. The geometric mean of 4 and 1/9 is sqrt(4*(1/9)) = sqrt(4/9) = 2/3.
√9x1=3
If there are only k numbers x(1),x(2)....,x(k), the geometric mean is the kth root of the product of these k numbers. Example: find the geometric mean of 4,3,7,8 We want the fourth root of 4 x 3 x 7 x 8 = 672 =(672)^(1/4) = 5.09146 is the geometric mean. The geometric mean is normally defined only for a set of positive numbers.
0.25..? arithmetic mean...?
1 and 1/2.
Geometric progression 1, 4, 16, 64, 256 would seem to fit...