Area and perimeter of complex shapes

Determine the perimeter of the shape.

To find the perimeter of the shape, we need to find the sum of the lengths of the sides. Choose a starting point on the shape and then add the lengths of the sides:

Starting at the top right corner and moving in a clockwise direction:

\[\text{Perimeter } = 7 + 2 + 5 + 5 + 2 + 7 = 28\]

The perimeter of the shape is \(28 \text{ m}\).

Find the area of the shape.

To calculate the area, we divide the shape into two rectangles.

\[\begin{align} \text{Area of shape } &= \text{area of green rectangle + area of blue rectangle} \\ &= (l \times b) + (l \times b) \\ &= (5 \times 2) + (7 \times 2) \\ &= 10 + 14 \\ &= 24 \\ \end{align}\]

The area of the shape is \(24 \text{ m}^2\).

Write the final answer.

The perimeter of the shape is \(28 \text{ m}\) and the area is \(24 \text{ m}^2\).

Divide the shape into two right-angled triangles.

We can divide the area of the quadrilateral into two right-angled triangles, \(\triangle WXY\) with \(\angle X = 90°\) and \(\triangle WYZ\) with \(\angle Z = 90°\).

Calculate the area of \(\triangle WYZ\).

\[\begin{align} \text{Area of } \triangle WYZ &= \frac{1}{2}(b \times h) \\ &= \frac{1}{2}(5 \times 12) \\ &= \frac{1}{2}60 \\ &= 30 \\ \text{Area of } \triangle WYZ &= 30 \text{ m}^2 \end{align}\]

Calculate the area of \(\triangle WXY\).

For this triangle, we do not know the perpendicular height (\(XW\)), so we need to use the theorem of Pythagoras to calculate the length of \(XW\):

\[\begin{align} WX^2 + XY^2 &= WY^2 \text{ (Pythagoras)} \\ WX^2 &= WY^2 − XY^2 \\ &= 13^2 − 8^2 \\ &= 169 − 64 \\ &= 105 \\ \therefore WX &= \sqrt{105} \end{align}\]

Now that we know the perpendicular height, we can calculate the area of \(\triangle WXY\):

\[\begin{align} \text{Area of } \triangle WXY &= \frac{1}{2}(b \times h) \\ &= \frac{1}{2}(8 \times \sqrt{105}) \\ &= 4 \sqrt{105} \\ &= 4 \sqrt{105} = \text{40,9} \text{ m}^2 \end{align}\]

Calculate the perimeter of \(WXYZ\).

\[\begin{align} \text{Perimeter } WXYZ &= 12 + 5 + 8 + \sqrt{105} \\ &= \text{35,2} \\ &= \text{35,2} \text{ m} \end{align}\]

Write the final answers.

\[\begin{align} \text{Area of } WXYZ &= \text{area of } \triangle WYZ + \text{area of } \triangle WXY \\ &= 30 + \text{40,9} \\ &= \text{71,0} \text{ m}^2 \\ \text{Perimeter } WXYZ &= \text{35,2} \text{ m} \end{align}\]