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Tag: angle addition

Lesson 18: Addition of angles and multiple angle formulas

Hi everyone! Read through the material below, watch the videos, and follow up with your instructor if you have questions.

Lesson 18: Addition of angles and multiple angle formulas

Topic. This lesson covers Session X: lessontopic

Learning Outcomes.

  • LearningOutcome1

WeBWorK. There are X WeBWorK assignments on today’s material:

  1. Functions – Function Notation

Lesson Notes. Coming Soon

Additional Video Resources.

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Lesson 18: Addition of angles and multiple angle formulas

Hi everyone! Read through the material below, watch the videos, collect your questions.

Lesson 18: Addition of angles and multiple angle formulas

Topic: This lesson covers Chapter 18: Addition of angles and multiple angle formulas.

WeBWorK: There are two WeBWorK assignments on today’s material:

Trigonometry – Sum and Difference Formulas

Trigonometry – Double and Half Angle Formulas

Lesson Notes (Notability – pdf):

This .pdf file contains most of the work from the videos in this lesson. It is provided for your reference.

Question of the Day: Suppose we know the values of the trig functions of two angles $a$ and $b$. Can we use them to find the values of the trig functions of the angle $a+b$?

Today, we will see how we can do exactly that – the idea is to work with formulas that allow us to calculate, for example, $\sin(a+b)$ and $\cos(a+b)$ based on the values of $\sin(a),\cos(a),\sin(b),$ and $\cos(b)$.

NOTE: We often use greek letters for angles — this helps us keep track of what’s an angle and what’s not. The most common are the greek letters alpha $\alpha$ and beta $\beta$. We’ll be using these instead of $a$ and $b$.

Warning: the videos for today’s lecture are *quite long* – however, they consist almost entirely of examples, with a lot of explanation. Feel free to skip around, or to try the WeBWorK first (if you get stuck, the videos might help).

Addition and Subtraction of Angles

Proposition 18.1. For any angles $\alpha$ and $\beta$,

  • $\sin (\alpha+\beta)=\sin \alpha \cos \beta+\cos \alpha \sin \beta$
  • $\sin (\alpha-\beta)=\sin \alpha \cos \beta-\cos \alpha \sin \beta$
  • $\cos (\alpha+\beta)=\cos \alpha \cos \beta-\sin \alpha \sin \beta$
  • $\cos (\alpha-\beta)=\cos \alpha \cos \beta+\sin \alpha \sin \beta$
  • $\tan (\alpha+\beta)=\frac{\tan \alpha+\tan \beta}{1-\tan \alpha \tan \beta}$
  • $\tan (\alpha-\beta)=\frac{\tan \alpha-\tan \beta}{1+\tan \alpha \tan \beta}$
help

Where did these formulas come from!?

Great question! To answer it, you need to see the *proof* of these formulas – this appears in your book in Chapter 18.

Now, we are going to see how these formulas let us calculate the values of trig functions at many different angles, based on just a few common angles (such as those listed in the table below – if you don’t know them, this is a great time to learn them!).

Values of trig function for common angles
Values of trig function for common angles

Example 18.2. Find the exact values of the trigonometric functions:

a) $\cos \left(\frac{\pi}{12}\right)$
b) $\tan \left(\frac{5 \pi}{12}\right)$
c) $\cos \left(\frac{11 \pi}{12}\right)$

VIDEO: Example 18.2 applying angle sum and difference formulas

Double and Half Angles

Proposition 18.5. Let $\alpha$ be any angle. Then we have the half-angle formulas:

$\sin \frac{\alpha}{2} =\pm \sqrt{\frac{1-\cos \alpha}{2}}$
$\cos \frac{\alpha}{2} =\pm \sqrt{\frac{1+\cos \alpha}{2}}$
$\tan \frac{\alpha}{2} =\frac{1-\cos \alpha}{\sin \alpha}=\frac{\sin \alpha}{1+\cos \alpha}=\pm \sqrt{\frac{1-\cos \alpha}{1+\cos \alpha}}$

and the double-angle formulas:

$\sin (2 \alpha) =2 \sin \alpha \cos \alpha$
$\cos (2 \alpha) =\cos ^{2} \alpha-\sin ^{2} \alpha=1-2 \sin ^{2} \alpha=2 \cos ^{2} \alpha-1$
$\tan (2 \alpha) &=\frac{2 \tan \alpha}{1-\tan ^{2} \alpha}$

Example 18.6. Find the exact values of the trigonometric functions:

a) $\sin \left(\frac{\pi}{8}\right)$
b) $\cos \left(\frac{9 \pi}{8}\right)$
c) $\tan \left(\frac{\pi}{24}\right)$

VIDEO: Example 18.6 applying half-angle formulas

Example 18.7. Find the trigonometric functions of $2\alpha$ when $\alpha$ has the properties below.

a) $\sin (\alpha)=\frac{3}{5},$ and $\alpha$ is in quadrant 1
b) $\tan (\alpha)=\frac{12}{5},$ and $\alpha$ is in quadrant 2

VIDEO: Example 18.7 applying double-angle formulas

That’s it for now. Take a look at the WeBWorK!