If `A_(1)`, `A_(2)`, `A_(3)` , `G_(1)`, `G_(2)`, `G_(3)` , and `H_(1)`, `H_(2)`, `H_(3)` are the three arithmetic, geometric and harmonic means between two positive numbers `a` and `b(a gt b)`, then which of the following is/are true ?

If G_1 ,G_2 are geometric means , and A is the arithmetic mean between two positive no. then show that G_1^2/G_2+G_2^2/G_1=2A .

If G is the G.M between two positive numbers a and b.show that 1/(G^2-a^2)+1/(G^2-b^2)=1/G^2

If a_(1),a_(2),a_(3),……a_(87),a_(88),a_(89) are the arithmetic means between 1 and 89 , then sum_(r=1)^(89)log(tan(a_(r ))^(@)) is equal to

If two positive values of a variable be x_(1) and x_(2) and the arithmetic mean be A, geometric mean be G and the harmonic mean be H, then prove that G^(2)=AH

If a_(1), a_(2), a_(3),…, a_(40) are in A.P. and a_(1) + a_(5) + a_(15) + a_(26) + a_(36) + a_(40) = 105 then sum of the A.P. series is-

For any three sets A_(1), A_(2), A_(3) let B_(1)= A_(1) , B_(2) =A_(2) -A_(1) and B_(3) =A_(3) -(A_(1) uuA_(2)): then which one of the following statement is always true ?

a_(1), a_(2),a_(3) in R - {0} and a_(1)+ a_(2)cos2x+ a_(3)sin^(2)x=0 " for all " x in R then

The arithmetic mean of two positive numbers is 6 and their geometric mean G and harmonic mean H satisfy the relation G^(2)+3H=48 . Then the product of the two numbers is

Let A_(1), A_(2), A_(3), A_(4) be the areas of the triangular faces of a tetrahedron, and h_(1), h_(2), h_(3), h_(4) be the corresponding altitudes of the tetrahedron. If the volume of tetrahedron is 1//6 cubic units, then find the minimum value of (A_(1) +A_(2) + A_(3) + A_(4))(h_(1)+ h_(2)+h_(3)+h_(4)) (in cubic units).

If x_1 and x_2 be any two positive variables and if the arithmetic mean of these two values be A, geometric mean be G and harmonic mean be H, then peove that G^2 = AH