7.4 The other trigonometric functions (Page 3/14)

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Use reference angles to find all six trigonometric functions of $- \frac{7 π}{4} .$

$\begin{array}{l} \sin (\frac{- 7 π}{4}) = \frac{\sqrt{2}}{2}, \cos (\frac{- 7 π}{4}) = \frac{\sqrt{2}}{2}, \tan (\frac{- 7 π}{4}) = 1, \\ \sec (\frac{- 7 π}{4}) = \sqrt{2}, \csc (\frac{- 7 π}{4}) = \sqrt{2}, \cot (\frac{- 7 π}{4}) = 1 \end{array}$

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Using even and odd trigonometric functions

To be able to use our six trigonometric functions freely with both positive and negative angle inputs, we should examine how each function treats a negative input. As it turns out, there is an important difference among the functions in this regard.

Consider the function $f (x) = x^{2},$ shown in [link] . The graph of the function is symmetrical about the y -axis. All along the curve, any two points with opposite x -values have the same function value. This matches the result of calculation: ${(4)}^{2} = {(−4)}^{2}, {(−5)}^{2} = {(5)}^{2},$ and so on. So $f (x) = x^{2}$ is an even function, a function such that two inputs that are opposites have the same output. That means $f (- x) = f (x) .$

This is an image of a graph of and upward facing parabola with points (-2, 4) and (2, 4) labeled. — The function $f (x) = x^{2}$ is an even function.

Now consider the function $f (x) = x^{3},$ shown in [link] . The graph is not symmetrical about the y -axis. All along the graph, any two points with opposite x -values also have opposite y -values. So $f (x) = x^{3}$ is an odd function, one such that two inputs that are opposites have outputs that are also opposites. That means $f (- x) = - f (x) .$

This is an image of a graph of the function f of x = x to the third power with labels for points (-1, -1) and (1, 1). — The function $f (x) = x^{3}$ is an odd function.

We can test whether a trigonometric function is even or odd by drawing a unit circle with a positive and a negative angle, as in [link] . The sine of the positive angle is $y .$ The sine of the negative angle is $- y .$ The sine function, then, is an odd function. We can test each of the six trigonometric functions in this fashion. The results are shown in [link] .

Graph of circle with angle of t and -t inscribed. Point of (x, y) is at intersection of terminal side of angle t and edge of circle. Point of (x, -y) is at intersection of terminal side of angle -t and edge of circle.

$\begin{matrix} sin t & = & y \\ sin (- t) & = & - y \\ sin t & \neq & sin (- t) \end{matrix}$	$\begin{matrix} cos t & = & x \\ cos (- t) & = & x \\ cos t & = & cos (- t) \end{matrix}$	$\begin{matrix} tan (t) & = & \frac{y}{x} \\ tan (- t) & = & - \frac{y}{x} \\ tan t & \neq & tan (- t) \end{matrix}$
$\begin{matrix} sec t & = & \frac{1}{x} \\ sec (- t) & = & \frac{1}{x} \\ sec t & = & sec (- t) \end{matrix}$	$\begin{matrix} csc t & = & \frac{1}{y} \\ csc (- t) & = & \frac{1}{- y} \\ csc t & \neq & csc (- t) \end{matrix}$	$\begin{matrix} cot t & = & \frac{x}{y} \\ cot (- t) & = & \frac{x}{- y} \\ cot t & \neq & cot (- t) \end{matrix}$

A General Note

Even and odd trigonometric functions

An even function is one in which $f (- x) = f (x) .$

An odd function is one in which $f (- x) = - f (x) .$

Cosine and secant are even:

\begin{matrix} \cos (- t) & = & cos t \\ \sec (- t) & = & sec t \end{matrix}

Sine, tangent, cosecant, and cotangent are odd:

\begin{matrix} sin (- t) & = & - sin t \\ tan (- t) & = & - tan t \\ csc (- t) & = & - csc t \\ cot (- t) & = & - cot t \end{matrix}

Using even and odd properties of trigonometric functions

If the secant of angle $t$ is 2, what is the secant of $- t ?$

Secant is an even function. The secant of an angle is the same as the secant of its opposite. So if the secant of angle $t$ is 2, the secant of $- t$ is also 2.

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If the cotangent of angle $t$ is $\sqrt{3},$ what is the cotangent of $- t ?$

$- \sqrt{3}$

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Recognizing and using fundamental identities

We have explored a number of properties of trigonometric functions. Now, we can take the relationships a step further, and derive some fundamental identities. Identities are statements that are true for all values of the input on which they are defined. Usually, identities can be derived from definitions and relationships we already know. For example, the Pythagorean Identity we learned earlier was derived from the Pythagorean Theorem and the definitions of sine and cosine.

A General Noter

Fundamental identities

We can derive some useful identities from the six trigonometric functions. The other four trigonometric functions can be related back to the sine and cosine functions using these basic relationships:

\tan t = \frac{\sin t}{\cos t}

\sec t = \frac{1}{\cos t}

\csc t = \frac{1}{\sin t}

cot t = \frac{1}{tan t} = \frac{cos t}{sin t}

Questions & Answers

A golfer on a fairway is 70 m away from the green, which sits below the level of the fairway by 20 m. If the golfer hits the ball at an angle of 40° with an initial speed of 20 m/s, how close to the green does she come?

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Nevermind i just realied that the graph is the phons output for a person with normal hearing and not just the phons output of the sound waves power, I should read the entire thing next time

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Follow up question, does anyone know where I can find a graph that accuretly depicts the actual relative "power" output of sound over its frequency instead of just humans hearing

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Source: OpenStax, Algebra and trigonometry. OpenStax CNX. Nov 14, 2016 Download for free at https://legacy.cnx.org/content/col11758/1.6

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