If `A` be the area of a right triangle and `b` one of the sides containing the right angle, prove that the length of the altitude on the hypotenuse is `(2A B)/(sqrt(b^4+4A^2))`

If A be the area of a right triangle and b one of the sides containing the right angle,prove that the length of the altitude on the hypotenuse is (2AB)/(sqrt(b^(4)+4A^(2)))

If A be the area of a right Deltaand b be one of the sides containing the right angle, prove that the length of the altitude on the hypotenuse is (2Ab)/(sqrt(b^(4)+4A^(2)) .

A be the area of a right /_ and be one of the sides containing the right angle,then the length of altitude on the hypotenus

The area of a right angled triangle is 24 cm and one of the sides containing the right angle is 6 cm. The altitude on the hypotenuse is

The perimeter of a right angled triangle is 60 cm. The ratio of the sides containing the right angle 5:2:3 What is the length of the hypotenuse

The area of a right-angled triangle is 20 sq.cm and one of the sides containing the right angle is 4cm. The altitude on the hypotenuse is (41)/(sqrt(34))cm(b)sqrt((41)/(40))cm(c)(29)/(sqrt(20))cm(d)(20)/(sqrt(29))cm

Find the area of a right triangle whose hypotenuse is 26 cm long and one of the sides containing the right angle measures 10 cm .

In a right Delta, the sum of the squares of sides containing right angle is 225 , then what is the length of its hypotenuse