The sum of squares of three distinct real numbers which form an increasing GP is `S^2` (common ratio is r). If sum of numbers is `alphaS`, then
If `alpha^2=2`, then the value of common ratio r is greater than

The sum of squares of three distinct real numbers which form an increasing GP is S^(2) (common ratio is r).If sum of numbers is alpha S then if r=3 then alpha^(2) cannot lie in

The sum of squares of three distinct real numbers which form an increasing GP is S^2 (common ratio is r). If sum of numbers is alphaS , then If r=2 then the value of alpha^2 is (a)/(b) (where a and b are coprime ) then a+b is

The sum of the squares of three distinct real numbers which are in GP is S^(2) , if their sum is alpha S , then

The sum of the squares of three distinct real numbers, which are in GP, is S^(2) . If their sum is a S , then show that a^(2) in ((1)/(3), 1) uu (1,3)

The sum of the squares of three numbers which are in the ratio 2:3:4 is 725. What are these numbers?

The sum of an infinite GP is 162 and the sum of its first n terms is 160. If the inverse of its common ratio is an integer, then how many values of common ratio is/are possible, common ratio is greater than 0?

Three positive numbers form an increasing GP. If the middle term in this GP is doubled, then new numbers are in AP. Then, the common ratio of the GP is