Chapter 5.6, Problem 28E

Solution

To find: If a triangle can be formed using the given lengths and to determine the area of a triangle using the Heron’s formula.

The triangle is possible and the area of the triangle is $101.34{\text{unit}}^2$ .

Given information:

The length of the sides of the triangle are $a=18.2\text{units}$ , $b=17.1\text{units}$ , and $c=12.3\text{units}$ .

Formula used:

The conditions to check if the triangle is possible or not are as follows.

  $\begin{array}{l}a+b>c\\ b+c>a\\ a+c>b\end{array}$

The Heron’s formula to determine the area of triangle is

  $\text{Area}=\sqrt{s\left(s-a\right)\left(s-b\right)\left(s-c\right)}$

Here, $s$ is the semi-perimeter and $s=\frac{a+b+c}{2}$ .

Calculation:

Substitute $18.2$ for $a$ , $17.1$ for $b$ and $12.3$ for $c$ in the three conditions to check whether triangle is possible.

  $\begin{array}{l}a+b>c\\ 18.2+17.1>12.3\end{array}$

This condition is satisfied.

  $\begin{array}{l}b+c>a\\ 17.1+12.3>18.2\end{array}$

This condition is satisfied.

  $\begin{array}{l}a+c>b\\ 18.2+12.3>17.1\end{array}$

This condition is satisfied.

Since all the three conditions are satisfied, so the trainable is possible.

Substitute $18.2$ for $a$ , $17.1$ for $b$ and $12.3$ for $c$ in the formula $s=\frac{a+b+c}{2}$ , to calculate the semi perimeter.

  $\begin{array}{c}s=\frac{18.2+17.1+12.3}{2}\\ =23.8\end{array}$

Substitute $18.2$ for $a$ , $17.1$ for $b$ and $12.3$ for $c$ and $23.8$ for $s$ into the Heron’s formula to calculate the area of triangle.

  $\begin{array}{c}\text{Area}=\sqrt{23.8\left(23.8-18.2\right)\left(23.8-17.1\right)\left(23.8-12.3\right)}\\ =\sqrt{10269.224}\\ =101.34\end{array}$

Therefore, the area of the triangle is $101.34{\text{unit}}^2$ .