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4.06 Area of a non-right-angled triangle

Lesson

We know how to find the area of right-angled triangles - we just multiply the two short sides together, and halve the result:

The area of this triangle is $\frac{1}{2}ab$12ab, half the area of the rectangle.

If the triangle is not right-angled we can still find the area, as long as we know two sides and the angle between them:

The area of this triangle is the base $a$a times the height, and then halved, just like for right-angled triangles. But what is the height? It isn't $b$b in this case, but we can use $b$b and the angle $C$C to find it.

Here we have made a small right-angled triangle within our larger triangle, with hypotenuse $b$b and short side $h$h, the height of our large triangle. Using trigonometric ratios, the value of $\sin C$sinC is the opposite side, $h$h, divided by the hypotenuse, $b$b.

So $\sin C=\frac{h}{b}$sinC=hb and hence, $h=b\sin C$h=bsinC.

Putting this all together with the area formula $Area=\frac{1}{2}base\times height$Area=12base×height, we obtain the formula:

Sine area rule

If a triangle has sides of length $a$a and $b$b, and the angle between these sides is $C$C, then:

 

     $\text{Area }=\frac{1}{2}ab\sin C$Area =12absinC

 

Practice questions

Question 1

Calculate the area of the following triangle.

Round your answer to two decimal places.

A triangle is depicted with the measurements of its two sides and their included angle. The included angle, highlighted by a blue-shaded arc, measures $44^\circ$44° and is adjacent to sides measuring $3$3 m and $5.7$5.7 m.

Question 2

$\triangle ABC$ABC has an area of $520$520 cm2. The side $BC=48$BC=48 cm and $\angle ACB=35^\circ$ACB=35°.

What is the length of $b$b?

Round your answer to the nearest centimetre.

Given $\triangle ABC$ABC with length of side $AC$AC labeled as $b$b cm and side $BC$BC labeled as $48$48 cm and their interior $\angle ACB$ACB that measures $35$35º. $\angle ACB$ACB is an included angle of the two given sides. Both side AC and BC are adjacent to the given included angle. 

Question 3

The area of triangle $\triangle XYZ$XYZ is $75$75 cm2. Side $XY$XY is $13$13 cm and side $YZ$YZ is $12$12 cm.

Determine the size(s), $x$x, of angle $Y$Y correct to two decimal places.

If there is more than one answer, write your answers on the same line, separated by commas.

 

Further applications

Many shapes can be divided into triangles and if we have sufficient information we can apply the sine area rule to solve problems involving areas.

Worked examples

Example 1

Find the area of a regular pentagon inscribed in a circle of radius $8$8 cm. 

 

Pictured left is a regular pentagon inscribed in a circle. Drawing lines out from the centre to the corners of the pentagon we will form 5 congruent triangles. Each triangle will be isosceles with two sides equal to the radius. The central angle can be found by dividing a full rotation by 5:

$\theta$θ $=$= $\frac{360^\circ}{5}$360°5
  $=$= $72^\circ$72°

 

 

 

We now have enough information to use our area rule.

Area $=$= $5\times\frac{1}{2}ab\sin C$5×12absinC
  $=$= $5\times\frac{1}{2}\times8\times8\times\sin\left(72^\circ\right)$5×12×8×8×sin(72°)
  $=$= $152$152$cm^2$cm2 (to the nearest $cm^2$cm2)
Example 2

A rhombus has area $50$50$cm^2$cm2 and its acute angle is $30^\circ$30°. What is the side length of the rhombus? 

 

A rhombus can be split into two isosceles triangles with side length $x$x cm and angle between the sides $30^\circ$30°.

 

 

Hence, the area could be found using the formula:

Area $=$= $2\times\frac{1}{2}ab\sin C$2×12absinC
  $=$= $x^2\times\sin\left(30^\circ\right)$x2×sin(30°)

Substituting our known area and rearrange for $x$x:

$50$50 $=$= $x^2\times\sin\left(30^\circ\right)$x2×sin(30°)
$50$50 $=$= $x^2\times\frac{1}{2}$x2×12
$100$100 $=$= $x^2$x2
$x$x $=$= $10$10, since $x$x is positive.

The side length of the rhombus is $10$10 cm.

Practice questions

Question 4

A parallelogram has two adjacent sides of length $12$12 cm and $7$7 cm respectively, with an included angle that measures $101^\circ$101°.

Find the area of the parallelogram.

  1. Round your answer to two decimal places.

Question 5

A hexagon has sides with length $10$10 cm.

Find the area of the hexagon.

  1. Leave your answer in exact form.

Outcomes

ACMMM031

establish and use the sine and cosine rules and the formula Area=1/2 bc sin⁡A for the area of a triangle

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