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et theta equals negative 8 times pi over 3 period Part A: What is a coterminal angle of θ such that 0 ≤ θ ≤ 2π? (5 points)Part B: What are the exact values of all six trigonometric functions evaluated at θ? (10 points))

et theta equals negative 8 times pi over 3 period Part A: What is a coterminal angle-example-1
User IDesi
by
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2 Answers

19 votes
19 votes

Therefore, the exact values of the six trigonometric functions at
\(\theta = -(8\pi)/(3)\) are:


\[\sin \theta = -(√(3))/(2), \cos \theta = -(1)/(2), \tan \theta = -√(3), \csc \theta = -(2)/(√(3)), \sec \theta = -2, \cot \theta = -(1)/(√(3))\]

Given:
\(\theta = -(8\pi)/(3)\)

Part A: Coterminal Angle of
\(\theta\) such that
\(0 \leq \theta \leq 2\pi\)

To find the coterminal angle within the range \(0 \leq \theta \leq 2\pi\), let's add
\(2\pi\) to
\(\theta\) until we obtain an angle within the desired range:


\(\theta = -(8\pi)/(3)\)

Adding
\(2\pi\) to \(\theta\):


\[\theta_{\text{co-terminal}} = -(8\pi)/(3) + 2\pi = -(8\pi)/(3) + (6\pi)/(3) = -(2\pi)/(3)\]

Therefore, a coterminal angle of
\(\theta\) such that
\(0 \leq \theta \leq 2\pi\) is \(-(2\pi)/(3)\).

Part B: Exact Values of Trigonometric Functions at
\(\theta\)

To find the exact values of the trigonometric functions at
\(\theta = -(8\pi)/(3)\), we can use the properties of trigonometric functions related to the unit circle.

Given
\(\theta = -(8\pi)/(3)\), which is in the third quadrant (since it is more than
(2\pi\)):

Let's evaluate the trigonometric functions at this angle:

Given:

- Sine
(\(\sin\)): \(\sin \theta = \sin\left(-(8\pi)/(3)\right)\)

- Cosine
(\(\cos\)): \(\cos \theta = \cos\left(-(8\pi)/(3)\right)\)

- Tangent
(\(\tan\)): \(\tan \theta = \tan\left(-(8\pi)/(3)\right)\)

- Cosecant
(\(\csc\)): \(\csc \theta = \csc\left(-(8\pi)/(3)\right)\)

- Secant
(\(\sec\)): \(\sec \theta = \sec\left(-(8\pi)/(3)\right)\)

- Cotangent
(\(\cot\)): \(\cot \theta = \cot\left(-(8\pi)/(3)\right)\)

Let's calculate these values using the properties of trigonometric functions and the unit circle:

The reference angle for
\((8\pi)/(3)\) is \((\pi)/(3)\). In the third quadrant, sine and cosine are negative:


\[\sin \theta = -\sin\left((\pi)/(3)\right) = -(√(3))/(2)\]


\[\cos \theta = -\cos\left((\pi)/(3)\right) = -(1)/(2)\]


\[\tan \theta = \tan\left((\pi)/(3)\right) = -√(3)\]


\[\csc \theta = -(1)/(\sin \theta) = -(2)/(√(3))\]


\[\sec \theta = -(1)/(\cos \theta) = -2\]


\[\cot \theta = -(1)/(\tan \theta) = -(1)/(√(3))\]

User Seanlook
by
2.8k points
8 votes
8 votes

Given


\theta=-(8\pi)/(3)

To find:

Part A: What is a coterminal angle of θ such that 0 ≤ θ ≤ 2π?

Part B: What are the exact values of all six trigonometric functions evaluated at θ?

Step-by-step explanation:

It is given that,


\theta=-(8\pi)/(3)

That implies,

Part A:


User Jayanth
by
2.6k points
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