大象传媒

Using bearings in trigonometryWorked example

Bearings are angles used in navigation. They are based on moving clockwise from due north. Missing information about bearings can be worked out using the sine and cosine rules.

Part of MathsTrigonometric skills

Worked example

A boat leaves the harbour and travels 9 km north west, then 12 km north. Calculate:

a) its distance from the harbour

b) the bearing it now has to sail to get back to the harbour

Answer

We need to sketch the problem first.

Find the size of angle R.

A path of a ship sailing 9km NW and 12km N

The boat travels from the harbour in a NW direction. This is halfway between west and north so it is at an angle of 45掳 to the axis for east-west and the axis for north-south. Angles of 45掳 are formed as shown in the diagram below.

Harbour image breaking down the main angle to 90 degrees and 45 degrees.

When the boat's direction changes to N, the internal angle formed can be found by adding 45掳 and 90掳.

The 90掳 comes from the angle between the north-south and east-west axes

This angle is 135掳, as shown below.

Diagram of bearings triangle with 135掳 angle and values 12km and 9km

The distance of the boat from the harbour is the missing side.

We know two sides and included angle, so we use the cosine rule.

\({a^2} = {b^2} + {c^2} - 2bcCosA\)

\(= {9^2} + {12^2} - (2 \times 9 \times 12 \times \cos 135^\circ )\)

\(= 81 + 144 鈥 (-152.74)\)

\(= 81 + 144 + 152.74\)

\(= 377.74\)

\(a=\sqrt{377.74}\)

\(a=19.4\,\,km\)

Diagram of bearings triangle with angle to find

We now have to find the new bearing to sail back to the harbour.

Let's look again at the sketch.

If we find the angle \(x^{\circ}\) then we can find our required angle by subtracting this answer from 180掳. The angles in a straight line add up to 180掳, in this case the north line.

We can use the sine rule or the cosine rule as we now have so much information. The sine rule is usually quicker.

\(\frac{{19.4}}{{\sin 135^\circ }} = \frac{9}{{\sin x^\circ }}\)

\(19.4\sin x^\circ = 9\sin 135^\circ\)

\(\sin x^\circ = \frac{{9\sin 135^\circ }}{{19.4}}\)

\(sinx^{\circ}=0.328\)

\(x^{\circ}=sin^{-1}\,0.328\)

\(x^{\circ}=19.1^{\circ}\)

Therefore the angle we require is: \(180^{\circ}-19.1^{\circ}=159.9^{\circ}\).