Angles in exact value right triangles
You'll have noticed by now that when you find angles using trigonometric ratios, you often get long decimal answers. If, for example, you put $\cos30^\circ$cos30° into the calculator, you will see an answer of $0.86602$0.86602... which we'd have to round. However, when you take cos, sin or tan of some angles, you can express the answer as an exact number, rather than a decimal. It just may include irrational numbers. We often use these exact ratios in relation to $30^\circ$30°, $45^\circ$45° and $60^\circ$60°.
Let's look at how to do this now.
Exact value triangles
45 degree angles
Below is a right-angle isosceles triangle, with the equal sides of $1$1 unit. Using Pythagoras' theorem, we can work out that the hypotenuse is $\sqrt{2}$√2 units. Further, because the angles in a triangle add up to $180^\circ$180° and the base angles in an isosceles triangle are equal, we can deduce that the other two unknown angles are both $45^\circ$45°.
Using our trig ratios, we can see that:
- $\sin45^\circ=\frac{1}{\sqrt{2}}$sin45°=1√2
- $\cos45^\circ=\frac{1}{\sqrt{2}}$cos45°=1√2
- $\tan45^\circ=\frac{1}{1}$tan45°=11$=$=$1$1
30 and 60 degree angles
To find the exact ratios of $30$30 and $60$60 degree angles, we need to start with a equilateral triangle with side lengths of $2$2 units. Remember all the angles in an equilateral triangle are $60^\circ$60°.
Then we are going to draw a line that cuts the triangle in half into two congruent triangles. The base line is cut into two $1$1 unit pieces and the length of this centre line was found using Pythagoras' theorem.
Now let's just focus on one half of this triangle.
Using our trig ratios, we can see that:
- $\sin30^\circ=\frac{1}{2}$sin30°=12
- $\cos30^\circ=\frac{\sqrt{3}}{2}$cos30°=√32
- $\sin60^\circ=\frac{\sqrt{3}}{2}$sin60°=√32
- $\cos60^\circ=\frac{1}{2}$cos60°=12
$\sin x=\cos\left(90^\circ-x\right)$sinx=cos(90°−x)
Exact value summary table
This table is another way to display the information in the exact value triangles. You can choose which method you prefer to help you remember these exact ratios.
| sin | cos | tan | |
|---|---|---|---|
| $30^\circ$30° | $\frac{1}{2}$12 | $\frac{\sqrt{3}}{2}$√32 | $\frac{1}{\sqrt{3}}$1√3 |
| $45^\circ$45° | $\frac{1}{\sqrt{2}}$1√2 | $\frac{1}{\sqrt{2}}$1√2 | $1$1 |
| $60^\circ$60° | $\frac{\sqrt{3}}{2}$√32 | $\frac{1}{2}$12 | $\sqrt{3}$√3 |
Worked Examples
QUESTION 1
Given that $\sin\theta=\frac{1}{2}$sinθ=12, we want to find the value of $\cos\theta$cosθ.
First, find the value of $\theta$θ.
Hence, find the exact value of $\cos30^\circ$cos30°.
Question 2
You are given that $\tan\theta=\frac{1}{\sqrt{3}}$tanθ=1√3.
First, find the value of $\theta$θ.
Hence, find exact the value of $\sin\theta$sinθ.
Question 3
Given that $\cos\theta=\frac{1}{\sqrt{2}}$cosθ=1√2, we want to find the value of $\tan\theta$tanθ.
First find the value of $\theta$θ.
Hence, find the exact value of $\tan45^\circ$tan45°.