You are doodling in art class one day when you draw a circle. Then you draw a few lines extending outward from the center to the edge of the circle. You draw a triangle with the "x" axis, and realize that you're thinking about your math class again.
You notice that the relationship for the sine function involves the length of the side opposite the angle divided by the length of the hypotenuse. But while the hypotenuse is always a positive number, the sign of the opposite side can be different, depending on what quadrant the angle is drawn in.
Can you determine what the sign of the sine function will be in each of the four quadrants, based on the knowledge of the ratio that defines the sine function?
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James Sousa: Domain, Range, and Signs of Trigonometric Functions
Guidance
While the trigonometric functions may seem quite different from other functions you have worked with, they are in fact just like any other function. We can think of a trig function in terms of “input” and “output.” The input is always an angle. The output is a ratio of sides of a triangle. If you think about the trig functions in this way, you can define the domain and range of each function.
Let’s first consider the sine and cosine functions. The input of each of these functions is always an angle, and as you learned in the previous sections, these angles can take on any real number value. Therefore the sine and cosine function have the same domain, the set of all real numbers, . We can determine the range of the functions if we think about the fact that the sine of an angle is the coordinate of the point where the terminal side of the angle intersects the unit circle. The cosine is the coordinate of that point. Now recall that in the unit circle, we defined the trig functions in terms of a triangle with hypotenuse 1.
In this right triangle, and are the lengths of the legs of the triangle, which must have lengths less than 1, the length of the hypotenuse. Therefore the ranges of the sine and cosine function do not include values greater than one. The ranges do, however, contain negative values. Any angle whose terminal side is in the third or fourth quadrant will have a negative coordinate, and any angle whose terminal side is in the second or third quadrant will have a negative coordinate.
In either case, the minimum value is -1. For example, and . Therefore the sine and cosine function both have range from -1 to 1.
The table below summarizes the domains and ranges of these functions:
Domain | Range | |
---|---|---|
Sine | ||
Cosine |
Knowing the domain and range of the cosine and sine function can help us determine the domain and range of the secant and cosecant function. First consider the sine and cosecant functions, which as we showed above, are reciprocals. The cosecant function will be defined as long as the sine value is not 0. Therefore the domain of the cosecant function excludes all angles with sine value 0, which are , , , etc.
In Chapter 2 you will analyze the graphs of these functions, which will help you see why the reciprocal relationship results in a particular range for the cosecant function. Here we will state this range, and in the review questions you will explore values of the sine and cosecant function in order to begin to verify this range, as well as the domain and range of the secant function.
Domain | Range | |
---|---|---|
Cosecant | or | |
Secant | or |
Now let’s consider the tangent and cotangent functions. The tangent function is defined as . Therefore the domain of this function excludes angles for which the ordered pair has an coordinate of , etc. The cotangent function is defined as , so this function’s domain will exclude angles for which the ordered pair has a coordinate of , , , etc.
Function | Domain | Range |
---|---|---|
Tangent | All reals | |
Cotangent | All reals |
Knowing the ranges of these functions tells you the values you should expect when you determine the value of a trig function of an angle. However, for many problems you will need to identify the sign of the function of an angle: Is it positive or negative?
In determining the ranges of the sine and cosine functions above, we began to categorize the signs of these functions in terms of the quadrants in which angles lie. The figure below summarizes the signs for angles in all 4 quadrants.
An easy way to remember this is “ A ll S tudents T ake C alculus”. Quadrant I: A ll values are positive, Quadrant II: S ine is positive, Quadrant III: T angent is positive, and Quadrant IV: C osine is positive. This simple memory device will help you remember which trig functions are positive and where.
Example A
State the sign of
Solution: The angle is in the second quadrant. Therefore the coordinate is negative and so is negative.
Example B
State the sign of
Solution: The angle is in the third quadrant. Therefore the coordinate is negative. So the sine, and the cosecant are negative.
Example C
State the sign of
Solution: The angle is in the first quadrant. Therefore the tangent value is positive.
Vocabulary
Domain: The domain of a function is the set of 'x' values for which the function is defined.
Range: The range of a function is the set of 'y' values for which the function is defined.
Guided Practice
1. State the sign of
2. State the sign of
3. State the sign of
Solutions:
1. The angle is in the first quadrant. Cosine is defined to be the adjacent side divided by the hypotenuse. Since the hypotenuse of the unit circle is one and the adjacent side is the "x" coordinate, the sign of the cosine function is determined by the sign of the "x" coordinate. Since is in the first quadrant, the "x" value is positive. Therefore the cosine value is positive.
2. The angle is in the second quadrant. Sine is defined to be the opposite side divided by the hypotenuse. Since the hypotenuse of the unit circle is one and the opposite side is the "y" coordinate, the sign of the sine function is determined by the sign of the "y" coordinate. Since is in the second quadrant, the "y" value is positive. Therefore the sine value is positive.
3. The angle is in the third quadrant. Tangent is defined to be the opposite side divided by the adjacent side. In the third quadrant, the "x" values are negative, and the "y" values are negative. A negative divided by a negative equals a positive. Therefore the tangent of is positive.
Concept Problem Solution
Since the sine function is defined to be the length of the opposite side divided by the length of the hypotenuse, the sign of the sine function is the sign of the "y" coordinate for whatever quadrant is being considered. In quadrants 1 and 2, the "y" coordinate is positive, so the sine function is positive. In quadrants 3 and 4, the "y" coordinate is negative, so the sine function is negative as well.
Practice
- In what quadrants is the sine function positive?
- In what quadrants is the cotangent function negative?
- In what quadrants is the cosine function negative?
- In what quadrants is the tangent function positive?
- For what angles is the cosecant function undefined?
- State the sign of .
- State the sign of .
- State the sign of .
- State the sign of .
- State the sign of .
- State the sign of .
- State the sign of .
- State the sign of .
- Explain why the cosecant function is never equal to 0.
- Using your knowledge of domain and range, make a possible sketch for .