Maximise Area of Triangle 75, x, 2x

Area of a triangle, A, having sides a, b, c is given by …

$$A^2=\frac{\left(a+b+c\right)\left(a+b–c\right)\left(a–b+c\right)\left(–a+b+c\right)}{16}$$

C. 1875

The sides of the triangle can be taken as 75, x, 2x.

Using the formula given in the hint,

$$A^2=\frac{\left(75+3x\right)\left(75-x\right)\left(75+x\right)\left(3x-75\right)}{16}$$

$$A^2=\frac{\left(9x^2-{75}^2\right)\left({75}^2-x^2\right)}{16}$$

To maximise the area, we will need to maximise the above expression. We are going to consider the numerator as product of two terms and we will manipulate the second term such that the sum of the two terms is a constant.

$$A^2=\frac{\left(9x^2-{75}^2\right)\left(9 \times {75}^2-9x^2\right)}{16 \times 9}$$

Now the sum of the two terms in the numerator is a constant, 8 × 75².

Thus, the product of the two terms will be maximum when each is equal, and each will then be equal to 4 × 75².

Thus,

$$\text{max of }A^2=\frac{{\left(4 \times {75}^2\right)}^2}{16 \times 9}$$

$$\text{max of }A=\frac{\left(4 \times {75}^2\right)}{4 \times 3}$$

i.e. maximum area = 25 × 75 = 1875.

And this will occur when, 9x² – 75² = 4 × 75²

i.e. 9x² = 5 × 75²

i.e. x = 25√5