Trigonometry Essay Questions

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Trigonometry, as the name might suggest, is all about triangles.

More specifically, trigonometry is about right-angled triangles, where one of the internal angles is 90°. Trigonometry is a system that helps us to work out missing sides or angles in a triangle.

There is more about triangles on our page on Polygons should you need to brush up on the basics before you read further here.

Right-Angled Triangles: A Reminder

A right-angled triangle has a single right angle. By definition, that means that all sides cannot be the same length. A typical right-angled triangle is shown below.

Important Terms for Right-Angled Triangles

  • The right angle is indicated by the little box in the corner.
  • The other angle that we (usually) know is indicated by θ.
  • The side opposite the right angle, which is the longest side, is called the hypotenuse.
  • The side opposite θ is called the opposite.
  • The side next to θ which is not the hypotenuse is called the adjacent.

Introducing Sine, Cosine and Tangent

There are three basic functions in trigonometry, each of which is one side of a right-angled triangle divided by another.

The three functions are:

NameAbbreviationRelationship to sides of the triangle
SineSinSin (θ) = Opposite/hypotenuse
CosineCosCos (θ) = Adjacent/hypotenuse
TangentTanTan (θ) = Opposite/adjacent

You may find it helpful to remember Sine, Cosine and Tangent as SOH CAH TOA.

Top Tip!

Because of the relationships between them, Tan θ can also be calculated as:
Sin θ / Cos θ.

This means that:

  • Sin θ = Cos θ × Tan θ and
  • Cos θ = Sin θ / Tan θ.

Trigonometry in a Circle

For more about circles, or a quick refresher, see our page on Circles and Curved Shapes.

Consider a circle, divided into four quadrants.

Conventionally, the centre of the circle is considered as a Cartesian coordinate of (0,0). That is, the x value is 0 and the y value is 0.

Anything to the left of the centre has an x value of less than 0, or is negative, while anything to the right has a positive value.

Similarly anything below the centre point has a y value of less than 0, or is negative and any point in the top of the circle has a positive y value.

Now consider what happens if we draw a radius from the centre of the circle, due east if the circle were a compass. Marked 1 in the diagram.

If we then rotate the radius around the circle in an anticlockwise direction, it will create a series of triangles:

At point 2, a right-angled triangle can be seen. θ is around 60°.

Sin θ is the opposite (the red line)/the hypotenuse (blue). Cos θ is the adjacent (the green line) over the hypotenuse (blue).

At point 3, θ is an obtuse angle, between 90° and 180°. Sin θ is the red line over the hypotenuse, and will therefore be positive. Cos θ, however, being the green line over the hypotenuse, will be negative since the green line is negative to the left of 0.

As you rotate the radius around the circle, the other two internal angles and the length of the other two sides all change and therefore affect the value of the sin and cos.

The Unit Circle

A 'Unit Circle' has a radius of 1.

When working with a unit circle we can measure cos, sin and tan directly:

Graphs of Sine, Cosine and Tangent

The relationship between the angle and the sin or cos can be drawn as a graph:

You can see that when x (i.e. the internal angle) is 0, then so is sin, which makes sense when you look at the circle above. This represents point (1), where there is basically no triangle.

Cosine is a simple shape to sine, but starts at 1 when x = 0, instead of 0.

Tangent is quite different. It moves from −∞ to +∞ crossing through 0 every 180°:

At infinity (positive or negative) it is said to be undefined.

You can also work out the inverse function to sin, cos and tan, which basically means 1 divided by that function. They are designated as sin/cos/tan -1. This enables you to work out the angle if you have the sin, cos or tan of it.

In other words:

  • Sin (90) = 1.
  • Sin−1 (1) = 90°

Trigonometry and Calculators

Scientific calculators have sin, cos, and tan functions, as well as inverse functions. It’s worth taking a few minutes to work out how your calculator operates, as this could save you hours of messing about when you need it.

Other Triangles and Trigonometry

Trigonometry also works for other triangles, just not in quite the same way. Instead there are two rules based on a triangle like this:

The Sine rule is:

a/sin A = b/sin B = c/sin C

The Cosine Rule is:

c2 = a2 + b2 – 2ab cos (C)

Why Do I Need Trigonometry?

This is a reasonable question, and the answer is at least partly because those who decide the mathematics curriculum in many countries think that you should know about it.

However, it does also have a few real-life functions, perhaps the most obvious of which is navigation, especially for boats.

Trigonometry and Navigation

When you are sailing or cruising at sea, where you end up is affected by:

  • The direction in which you steer;
  • The speed at which you travel in that direction (i.e. the motor or windspeed); and
  • The direction and speed of the tide.

You can be motoring in one direction, but the tide could be coming from one side, and push you to the other. You will (ta-da!) need trigonometry to work out how far you will travel and in what precise direction.

You will, quite rightly, have worked out that it’s not quite as simple as all that, because the actual direction of travel depends on the tide speed and your speed, but you can probably see why trigonometry might be important!

Worked Example

You are out for a day’s sailing, and don’t really mind where you end up. You started out heading due east, and plan to sail for one hour at a cruising speed of 10 km/h. The tide is due north, and running at 5km/h. What direction will you end up travelling in?
  1. First draw your triangle, and label the sides. You are heading due east, so let’s make that the bottom of the triangle, length 10km. The tide is going to push you north, so let’s make that the right hand side. And you want to know what direction you’ll end up going in, so that’s angle θ.
  1. You have the opposite and the adjacent, which means that you need to use tan. Tan θ = Opposite/adjacent = 5/10 = 0.5.
  2. Now is the time to use the inverse tan function. The inverse tan of 0.5 is 26.6°. In other words, tan 26.6 = 0.5.
  3. Direction is measured from North, which is 0°. Your answer from (3), however, is measured from 90°, or East. You will therefore need to subtract your answer from 90°, to obtain the answer that you are travelling in a direction of 63.4°, which is between North East (45°) and East North East (67.5°).

Why is this important? You’ll need to know which direction you travelled in order to sail home, of course!

In real life, you will need to remember that by then the tide may have changed…


Trigonometry may not have all that many everyday applications, but it does help you to work with triangles more readily. It’s a useful supplement to geometry and actual measurements, and as such well worth developing an understanding of the basics, even if you never wish to progress further.

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