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Grade 12

Use relative acute angles to find exact values (rad)

Lesson

Ideas in this chapter extend material that has been presented on the unit-circle definitions of the trigonometric functions, on exact values and on relative acute angles.

The periodic nature of the trigonometric functions means that the same function value is obtained for many different angles or numbers in the domain of the function.  In fact, there is always an acute angle that leads to any given function value and this can be used instead of a more general angle in order to simplify calculations. 

For example, we may wish to evaluate an expression like $\sin\frac{4\pi}{3}+\cos-\frac{\pi}{6}$sin4π3+cosπ6. An ordinary scientific calculator will do this without any preliminary work, but you can check that the following manipulation gives the same result. These manipulations are justified by reference to the unit circle definitions of the trigonometric functions.

The angle $\frac{4\pi}{3}$4π3 is in the third quadrant.

We find its first quadrant reference angle by subtracting $\pi$π radians to get $\frac{\pi}{3}$π3.

 

The angle $-\frac{\pi}{6}$π6 is equivalent to $\frac{11\pi}{6}$11π6, which is in the fourth quadrant. So, we subtract this from $2\pi$2π to obtain the reference angle $\frac{\pi}{6}$π6. We now use the fact that sine is negative in the third quadrant and cosine is positive in the fourth quadrant, to write the expression $\sin\frac{\pi}{3}+\cos\frac{\pi}{4}$sinπ3+cosπ4, which is identical in value to the original expression.

Since $\frac{\pi}{3}$π3 and $\frac{\pi}{6}$π6 have exact values for our three main trigonometric functions, it turns out that our original expression $\sin\frac{4\pi}{3}+\cos-\frac{\pi}{6}$sin4π3+cosπ6 can be evaluated exactly!

Recalling that $\sin\frac{\pi}{3}=\frac{\sqrt{3}}{2}$sinπ3=32 and $\cos\frac{\pi}{6}=\frac{\sqrt{3}}{2}$cosπ6=32 also, we have $-\sin60^\circ+\cos30^\circ$sin60°+cos30°$=$=$-\frac{\sqrt{3}}{2}+\frac{\sqrt{3}}{2}=0$32+32=0.

 

Example:

Evaluate the expression: $\sin\frac{9\pi}{4}\left(\tan\frac{5\pi}{6}+\cos\frac{5\pi}{6}\right)$sin9π4(tan5π6+cos5π6).

The argument $\frac{9\pi}{4}$9π4 is equivalent to $\frac{\pi}{4}$π4.

So, $\sin\frac{9\pi}{4}$sin9π4 is the same as $\sin\frac{\pi}{4}=\frac{1}{\sqrt{2}}$sinπ4=12

Similarly, $\frac{5\pi}{6}$5π6 is in the second quadrant and is therefore related to $\frac{\pi}{6}$π6. Hence, $\tan\frac{5\pi}{6}=-\sqrt{3}$tan5π6=3 and $\cos\frac{5\pi}{6}=-\frac{\sqrt{3}}{2}$cos5π6=32

Putting the pieces together, we have $\sin\frac{9\pi}{4}\left(\tan\frac{5\pi}{6}+\cos\frac{5\pi}{6}\right)=\frac{1}{\sqrt{2}}\left(-\sqrt{3}-\frac{\sqrt{3}}{2}\right)=$sin9π4(tan5π6+cos5π6)=12(332)=$\frac{-3\sqrt{3}}{2\sqrt{2}}$3322.

This can be written with rationalised denominator as $-\frac{3\sqrt{6}}{4}$364.

Worked Examples

QUESTION 1

Write the following trigonometric ratio in terms of its related acute angle:

$\sin\frac{7\pi}{6}$sin7π6

Note: you do not need to evaluate the ratio.

QUESTION 2

Find the exact value of the following trigonometric ratios.

  1. $\sin\frac{2\pi}{3}$sin2π3
  2. $\cos\frac{2\pi}{3}$cos2π3
  3. $\tan\frac{2\pi}{3}$tan2π3
  4. $\csc\frac{2\pi}{3}$csc2π3
  5. $\sec\frac{2\pi}{3}$sec2π3
  6. $\cot\frac{2\pi}{3}$cot2π3

QUESTION 3

The function $f\left(x\right)$f(x) is defined as $f\left(x\right)=3+\sqrt{3}\cos x+\sin x$f(x)=3+3cosx+sinx.

Find the exact value of $f\left(\frac{5\pi}{6}\right)$f(5π6).

Outcomes

12F.B.1.4

Determine, without technology, the exact values of the primary trigonometric ratios and the reciprocal trigonometric ratios for the special angles 0, p/6, p/4 , p/3 , p/2, and their multiples less than or equal to 2p

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