# Prove that of all the triangles on the same base and of the same area, the isosceles triangle has the least perimeter.

### Asked by | 18th Oct, 2012, 07:44: PM

Expert Answer:

### Answer: To prove that of all the triangles on the same base and of the same area, the isosceles triangle has the least perimeter.
If we drop a vertical line from the vertex of the triangle to the base (B), the length of that line is the height of the triangle (H), and the point where it intersects the base can be defined as the distance x from one end of the base.
For a given area A and base length, the height h must be constant, since the area of a triangle is equal to A = (1/2)* B *H
The distance from that point to the other end of the base is B-x.
Note that for an isoceles triangle the value of x is B/2. So the job here is to show that the length of the perimeter is a minimum when x = B/2.

The perimeter of the triangle is simply the sum of the lengths of the three sides:

P(x) = B + ( x^{2} + H^{2})^{1/2} + ( ( B-x)^{2} + H^{2}))^{1/2}

Taking the derivative of P wrt x, and set it to zero - that will define the value for x where the length of the perimeter is either at a max or a min, we get
dP/dx = [x / ( x^{2} + H^{2})^{1/2 }] - [(B-x) / ( B^{2} - 2Bx + x^{2} + H^{2} )^{1/2} ]

Now substitute in x = B/2, we find for dP/dx is zero.
Hence the perimeter is either at a max or a min for an isoceles triangle.
To prove it's a min, you could take the 2nd derivative of P(x) and show that it's negative at x = B/2.
To show that for x = + infinity or - infinity the value of P(x) goes to infinity . Hence the value of P at x = B/2 must be a min, and the isoceles traingle has the minimum length perimeter for a given base and area.

The perimeter of the triangle is simply the sum of the lengths of the three sides:

P(x) = B + ( x

^{2}+ H

^{2})

^{1/2}+ ( ( B-x)

^{2}+ H

^{2}))

^{1/2}

Taking the derivative of P wrt x, and set it to zero - that will define the value for x where the length of the perimeter is either at a max or a min, we get

^{2}+ H

^{2})

^{1/2 }] - [(B-x) / ( B

^{2}- 2Bx + x

^{2}+ H

^{2})

^{1/2}]

Now substitute in x = B/2, we find for dP/dx is zero.

### Answered by | 21st Oct, 2012, 09:24: PM

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