Question

How do you use Heron's formula to determine the area of a triangle with sides of that are 12, 16, and 19 units in length?

Answer 1

`95.503\ \text{unit}^2`

Explanation:

The semi-perimeter `s` of the triangle having sides `a=12`, `b=16` & `c=19` is given as

`s=\frac{a+b+c}{2}`

`=\frac{12+16+19}{2}`

`=23.5`

Now, using Hero's formula, the area `\Delta` of triangle is given as follows

`\Delta=\sqrt{s(s-a)(s-b)(s-c)}`

`=\sqrt{23.5(23.5-12)(23.5-16)(23.5-19)}`

`=95.503\ \text{unit}^2`

Answer 2

`"The area of the triangle is " Delta~~95.5036 sq.units`

Explanation:

We have,

`"Heron's formula : the area of the triangle is"`

`Delta=sqrt(s(s-a)(s-b)(s-c)) " , where s is semi perimeter"`

Let ,

`a=12, b=16 ,and c=19`

`=>s=(a+b+c)/2=(12+16+19)/2=23.5`

`=>s-a=23.5-12=11.5`

`s-b=23.5-16=7.5`

`s-c=23.5-19=4.5`
So ,
`Delta=sqrt(23.5(11.5)(7.5)(4.5))~~95.5036` square units