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Working with trigonometric relationships in degreesTrigonometric relationships

Trigonometric functions can have several solutions. Sine, cosine and tangent all have different positive or negative values depending on what quadrant they are in.

Part of MathsTrigonometric skills

Trigonometric relationships

Watch this video to learn about solving trigonometric equations in degrees.

Solving trigonometric equations

Many students think they've solved a trig equation when they get one answer (one size of angle \(x^\circ\)). However there's often more than one answer expected so be aware of this.

Example

Solve the equation \(\sin x^\circ = 0.5\), where 0 鈮 x < 360.

Answer

Let's remind ourselves of what the sine graph looks like so that we can see how many solutions we should be expecting:

Diagram of a sin equation graph

Therefore, from the graph of the function, we can see that we should be expecting two solutions: one solution being between 0藲 and 90藲 and the other solution between 90藲 and 180藲.

\(\sin x^\circ = 0.5\)

\(x^\circ = {\sin ^{ - 1}}(0.5)\)

\(x^\circ = 30^\circ\)

So we know that the first solution is 30藲 as previously predicted from the graph.

To get the other solution, we need to go back to our quadrants and use the appropriate rule:

Diagram of quadrant rules

Therefore since the trig equation we are solving is sin and it is positive (0.5), then we are in the first and second quadrants. We have already found the first solution which is the acute angle from the first quadrant, so to find the second solution, we need to use the rule in the second quadrant.

\(x^\circ = 180^\circ - 30^\circ\)

\(x^\circ = 150^\circ\)

Therefore \(x^\circ = 30^\circ ,150^\circ\)

Now try the example questions below.

Question

Solve the equation \(\sin x^\circ = -0.349\), where 0 鈮 x < 360.

Question

Solve the equation \(4\sin x^\circ - 3 = 0\), where \(0 \le x \textless 360\).