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
The geometric mean of 5 and 15 is sqrt (5x15)= sqrt (75)= 5sqrt(3).
The geometric mean of two numbers is the square root of their product. In this case, the geometric mean of 5 and 25 would be the square root of (5 * 25) which equals the square root of 125. Simplifying further, the square root of 125 is approximately 11.18. Therefore, the geometric mean of 5 and 25 is approximately 11.18.
Geometric mean of 2 and 25 = sqrt(2*25) = 5*sqrt(2) = 7.071
Geometric mean of 12 and 15 is 13.416407864998738 Look at link: "Calculation of the geometric mean of two numbers".
The geometric mean is 45.0
45
40
25
The geometric mean of 4 and 5 is 4.472135955
Two numbers can have only one geometric mean. The geometric mean of 5 and 135 is +sqrt(5*135) = +sqrt(675) = 15*sqrt(3) = 25.98
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
If, by geometric number (?) you mean geometric mean, then the answer is 40.
Geometric mean of 5 and 15= √(5x15)=√75=5√3
Geometric mean = sqrt(5*80) = sqrt(400) = 20
I assume you mean to find the prime factorization of 405. If so: 34 x 5
The geometric mean of 5 and 15 is sqrt (5x15)= sqrt (75)= 5sqrt(3).