Find the Exact Solution in Radians
Trigonometric Identities and Equations
Solving Trigonometric Equations
Learning Objectives
In this section, you will:
- Solve linear trigonometric equations in sine and cosine.
- Solve equations involving a single trigonometric function.
- Solve trigonometric equations using a calculator.
- Solve trigonometric equations that are quadratic in form.
- Solve trigonometric equations using fundamental identities.
- Solve trigonometric equations with multiple angles.
- Solve right triangle problems.
Thales of Miletus (circa 625–547 BC) is known as the founder of geometry. The legend is that he calculated the height of the Great Pyramid of Giza in Egypt using the theory of similar triangles, which he developed by measuring the shadow of his staff. Based on proportions, this theory has applications in a number of areas, including fractal geometry, engineering, and architecture. Often, the angle of elevation and the angle of depression are found using similar triangles.
In earlier sections of this chapter, we looked at trigonometric identities. Identities are true for all values in the domain of the variable. In this section, we begin our study of trigonometric equations to study real-world scenarios such as the finding the dimensions of the pyramids.
Solving Linear Trigonometric Equations in Sine and Cosine
Trigonometric equations are, as the name implies, equations that involve trigonometric functions. Similar in many ways to solving polynomial equations or rational equations, only specific values of the variable will be solutions, if there are solutions at all. Often we will solve a trigonometric equation over a specified interval. However, just as often, we will be asked to find all possible solutions, and as trigonometric functions are periodic, solutions are repeated within each period. In other words, trigonometric equations may have an infinite number of solutions. Additionally, like rational equations, the domain of the function must be considered before we assume that any solution is valid. The period of both the sine function and the cosine function is In other words, everyunits, the y-values repeat. If we need to find all possible solutions, then we must addwhereis an integer, to the initial solution. Recall the rule that gives the format for stating all possible solutions for a function where the period is
There are similar rules for indicating all possible solutions for the other trigonometric functions. Solving trigonometric equations requires the same techniques as solving algebraic equations. We read the equation from left to right, horizontally, like a sentence. We look for known patterns, factor, find common denominators, and substitute certain expressions with a variable to make solving a more straightforward process. However, with trigonometric equations, we also have the advantage of using the identities we developed in the previous sections.
Solving a Linear Trigonometric Equation Involving the Cosine Function
Find all possible exact solutions for the equation
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From the unit circle, we know that
These are the solutions in the intervalAll possible solutions are given by
whereis an integer.[/hidden-answer]
Solving a Linear Equation Involving the Sine Function
Find all possible exact solutions for the equation
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Solving for all possible values of t means that solutions include angles beyond the period ofFrom (Figure), we can see that the solutions areandBut the problem is asking for all possible values that solve the equation. Therefore, the answer is
whereis an integer.[/hidden-answer]
How To
Given a trigonometric equation, solve using algebra.
- Look for a pattern that suggests an algebraic property, such as the difference of squares or a factoring opportunity.
- Substitute the trigonometric expression with a single variable, such asor
- Solve the equation the same way an algebraic equation would be solved.
- Substitute the trigonometric expression back in for the variable in the resulting expressions.
- Solve for the angle.
Solve the Linear Trigonometric Equation
Solve the equation exactly:
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Use algebraic techniques to solve the equation.
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Try It
Solve exactly the following linear equation on the interval
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Solving Equations Involving a Single Trigonometric Function
When we are given equations that involve only one of the six trigonometric functions, their solutions involve using algebraic techniques and the unit circle (see (Figure)). We need to make several considerations when the equation involves trigonometric functions other than sine and cosine. Problems involving the reciprocals of the primary trigonometric functions need to be viewed from an algebraic perspective. In other words, we will write the reciprocal function, and solve for the angles using the function. Also, an equation involving the tangent function is slightly different from one containing a sine or cosine function. First, as we know, the period of tangent isnotFurther, the domain of tangent is all real numbers with the exception of odd integer multiples ofunless, of course, a problem places its own restrictions on the domain.
Solving a Problem Involving a Single Trigonometric Function
Solve the problem exactly:
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As this problem is not easily factored, we will solve using the square root property. First, we use algebra to isolateThen we will find the angles.
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Solving a Trigonometric Equation Involving Cosecant
Solve the following equation exactly:
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We want all values offor whichover the interval
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Analysis
Asnotice that all four solutions are in the third and fourth quadrants.
Solving an Equation Involving Tangent
Solve the equation exactly:
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Recall that the tangent function has a period ofOn the intervaland at the angle ofthe tangent has a value of 1. However, the angle we want isThus, ifthen
Over the intervalwe have two solutions:
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Try It
Find all solutions for
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Identify all Solutions to the Equation Involving Tangent
Identify all exact solutions to the equation
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We can solve this equation using only algebra. Isolate the expressionon the left side of the equals sign.
There are two angles on the unit circle that have a tangent value ofand[/hidden-answer]
Solve Trigonometric Equations Using a Calculator
Not all functions can be solved exactly using only the unit circle. When we must solve an equation involving an angle other than one of the special angles, we will need to use a calculator. Make sure it is set to the proper mode, either degrees or radians, depending on the criteria of the given problem.
Using a Calculator to Solve a Trigonometric Equation Involving Sine
Use a calculator to solve the equationwhereis in radians.
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Make sure mode is set to radians. To find use the inverse sine function. On most calculators, you will need to push the 2ND button and then the SIN button to bring up thefunction. What is shown on the screen isThe calculator is ready for the input within the parentheses. For this problem, we enterand press ENTER. Thus, to four decimals places,
The solution is
The angle measurement in degrees is
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Analysis
Note that a calculator will only return an angle in quadrants I or IV for the sine function, since that is the range of the inverse sine. The other angle is obtained by using
Using a Calculator to Solve a Trigonometric Equation Involving Secant
Use a calculator to solve the equationgiving your answer in radians.
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We can begin with some algebra.
Check that the MODE is in radians. Now use the inverse cosine function.
Sinceand1.8235 is between these two numbers, thusis in quadrant II. Cosine is also negative in quadrant III. Note that a calculator will only return an angle in quadrants I or II for the cosine function, since that is the range of the inverse cosine. See (Figure).
So, we also need to find the measure of the angle in quadrant III. In quadrant III, the reference angle isThe other solution in quadrant III is
The solutions are and [/hidden-answer]
Try It
Solve
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and
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Solving Trigonometric Equations in Quadratic Form
Solving a quadratic equation may be more complicated, but once again, we can use algebra as we would for any quadratic equation. Look at the pattern of the equation. Is there more than one trigonometric function in the equation, or is there only one? Which trigonometric function is squared? If there is only one function represented and one of the terms is squared, think about the standard form of a quadratic. Replace the trigonometric function with a variable such asorIf substitution makes the equation look like a quadratic equation, then we can use the same methods for solving quadratics to solve the trigonometric equations.
Solving a Trigonometric Equation in Quadratic Form
Solve the equation exactly:
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We begin by using substitution and replacing coswithIt is not necessary to use substitution, but it may make the problem easier to solve visually. LetWe have
The equation cannot be factored, so we will use the quadratic formula
Replacewithand solve.
Note that only the + sign is used. This is because we get an error when we solveon a calculator, since the domain of the inverse cosine function isHowever, there is a second solution:
This terminal side of the angle lies in quadrant I. Since cosine is also positive in quadrant IV, the second solution is
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Solving a Trigonometric Equation in Quadratic Form by Factoring
Solve the equation exactly:
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Using grouping, this quadratic can be factored. Either make the real substitution,or imagine it, as we factor:
Now set each factor equal to zero.
Next solve foras the range of the sine function isHowever, giving the solution[/hidden-answer]
Analysis
Make sure to check all solutions on the given domain as some factors have no solution.
Try It
Solve[Hint: Make a substitution to express the equation only in terms of cosine.]
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Solving a Trigonometric Equation Using Algebra
Solve exactly:
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This problem should appear familiar as it is similar to a quadratic. LetThe equation becomesWe begin by factoring:
Set each factor equal to zero.
Then, substitute back into the equation the original expressionforThus,
The solutions within the domainare
If we prefer not to substitute, we can solve the equation by following the same pattern of factoring and setting each factor equal to zero.
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Analysis
We can see the solutions on the graph in (Figure). On the intervalthe graph crosses the x-axis four times, at the solutions noted. Notice that trigonometric equations that are in quadratic form can yield up to four solutions instead of the expected two that are found with quadratic equations. In this example, each solution (angle) corresponding to a positive sine value will yield two angles that would result in that value.
We can verify the solutions on the unit circle in (Figure) as well.
Solving a Trigonometric Equation Quadratic in Form
Solve the equation quadratic in form exactly:
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We can factor using grouping. Solution values ofcan be found on the unit circle.
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Try It
Solve the quadratic equation
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Solving Trigonometric Equations Using Fundamental Identities
While algebra can be used to solve a number of trigonometric equations, we can also use the fundamental identities because they make solving equations simpler. Remember that the techniques we use for solving are not the same as those for verifying identities. The basic rules of algebra apply here, as opposed to rewriting one side of the identity to match the other side. In the next example, we use two identities to simplify the equation.
Use Identities to Solve an Equation
Use identities to solve exactly the trigonometric equation over the interval
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Notice that the left side of the equation is the difference formula for cosine.
From the unit circle in (Figure), we see thatwhen[/hidden-answer]
Solving the Equation Using a Double-Angle Formula
Solve the equation exactly using a double-angle formula:
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We have three choices of expressions to substitute for the double-angle of cosine. As it is simpler to solve for one trigonometric function at a time, we will choose the double-angle identity involving only cosine:
So, ifthen and ifthen[/hidden-answer]
Solving an Equation Using an Identity
Solve the equation exactly using an identity:
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If we rewrite the right side, we can write the equation in terms of cosine:
Our solutions are[/hidden-answer]
Solving Right Triangle Problems
We can now use all of the methods we have learned to solve problems that involve applying the properties of right triangles and the Pythagorean Theorem. We begin with the familiar Pythagorean Theorem,and model an equation to fit a situation.
Using the Pythagorean Theorem to Model an Equation
Use the Pythagorean Theorem, and the properties of right triangles to model an equation that fits the problem.
One of the cables that anchors the center of the London Eye Ferris wheel to the ground must be replaced. The center of the Ferris wheel is 69.5 meters above the ground, and the second anchor on the ground is 23 meters from the base of the Ferris wheel. Approximately how long is the cable, and what is the angle of elevation (from ground up to the center of the Ferris wheel)? See (Figure).
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Using the information given, we can draw a right triangle. We can find the length of the cable with the Pythagorean Theorem.
The angle of elevation isformed by the second anchor on the ground and the cable reaching to the center of the wheel. We can use the tangent function to find its measure. Round to two decimal places.
The angle of elevation is approximatelyand the length of the cable is 73.2 meters.[/hidden-answer]
Using the Pythagorean Theorem to Model an Abstract Problem
OSHA safety regulations require that the base of a ladder be placed 1 foot from the wall for every 4 feet of ladder length. Find the angle that a ladder of any length forms with the ground and the height at which the ladder touches the wall.
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For any length of ladder, the base needs to be a distance from the wall equal to one fourth of the ladder's length. Equivalently, if the base of the ladder is "a" feet from the wall, the length of the ladder will be 4a feet. See (Figure).
The side adjacent tois a and the hypotenuse isThus,
The elevation of the ladder forms an angle ofwith the ground. The height at which the ladder touches the wall can be found using the Pythagorean Theorem:
Thus, the ladder touches the wall atfeet from the ground.[/hidden-answer]
Key Concepts
- When solving linear trigonometric equations, we can use algebraic techniques just as we do solving algebraic equations. Look for patterns, like the difference of squares, quadratic form, or an expression that lends itself well to substitution. See (Figure), (Figure), and (Figure).
- Equations involving a single trigonometric function can be solved or verified using the unit circle. See (Figure), (Figure), and (Figure), and (Figure).
- We can also solve trigonometric equations using a graphing calculator. See (Figure) and (Figure).
- Many equations appear quadratic in form. We can use substitution to make the equation appear simpler, and then use the same techniques we use solving an algebraic quadratic: factoring, the quadratic formula, etc. See (Figure), (Figure), (Figure), and (Figure).
- We can also use the identities to solve trigonometric equation. See (Figure), (Figure), and (Figure).
- We can use substitution to solve a multiple-angle trigonometric equation, which is a compression of a standard trigonometric function. We will need to take the compression into account and verify that we have found all solutions on the given interval. See (Figure).
- Real-world scenarios can be modeled and solved using the Pythagorean Theorem and trigonometric functions. See (Figure).
Section Exercises
Verbal
Will there always be solutions to trigonometric function equations? If not, describe an equation that would not have a solution. Explain why or why not.
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There will not always be solutions to trigonometric function equations. For a basic example,[/hidden-answer]
When solving a trigonometric equation involving more than one trig function, do we always want to try to rewrite the equation so it is expressed in terms of one trigonometric function? Why or why not?
When solving linear trig equations in terms of only sine or cosine, how do we know whether there will be solutions?
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If the sine or cosine function has a coefficient of one, isolate the term on one side of the equals sign. If the number it is set equal to has an absolute value less than or equal to one, the equation has solutions, otherwise it does not. If the sine or cosine does not have a coefficient equal to one, still isolate the term but then divide both sides of the equation by the leading coefficient. Then, if the number it is set equal to has an absolute value greater than one, the equation has no solution.
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Algebraic
For the following exercises, find all solutions exactly on the interval
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For the following exercises, solve exactly on
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For the following exercises, find all exact solutions on
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For the following exercises, solve with the methods shown in this section exactly on the interval
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For the following exercises, solve exactly on the intervalUse the quadratic formula if the equations do not factor.
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There are no solutions.
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There are no solutions.
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For the following exercises, find exact solutions on the intervalLook for opportunities to use trigonometric identities.
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There are no solutions.
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Graphical
For the following exercises, algebraically determine all solutions of the trigonometric equation exactly, then verify the results by graphing the equation and finding the zeros.
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There are no solutions.
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Technology
For the following exercises, use a calculator to find all solutions to four decimal places.
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For the following exercises, solve the equations algebraically, and then use a calculator to find the values on the intervalRound to four decimal places.
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Extensions
For the following exercises, find all solutions exactly to the equations on the interval
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Real-World Applications
An airplane has only enough gas to fly to a city 200 miles northeast of its current location. If the pilot knows that the city is 25 miles north, how many degrees north of east should the airplane fly?
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If a loading ramp is placed next to a truck, at a height of 4 feet, and the ramp is 15 feet long, what angle does the ramp make with the ground?
If a loading ramp is placed next to a truck, at a height of 2 feet, and the ramp is 20 feet long, what angle does the ramp make with the ground?
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A woman is watching a launched rocket currently 11 miles in altitude. If she is standing 4 miles from the launch pad, at what angle is she looking up from horizontal?
An astronaut is in a launched rocket currently 15 miles in altitude. If a man is standing 2 miles from the launch pad, at what angle is she looking down at him from horizontal? (Hint: this is called the angle of depression.)
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A woman is standing 8 meters away from a 10-meter tall building. At what angle is she looking to the top of the building?
A man is standing 10 meters away from a 6-meter tall building. Someone at the top of the building is looking down at him. At what angle is the person looking at him?
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A 20-foot tall building has a shadow that is 55 feet long. What is the angle of elevation of the sun?
A 90-foot tall building has a shadow that is 2 feet long. What is the angle of elevation of the sun?
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A spotlight on the ground 3 meters from a 2-meter tall man casts a 6 meter shadow on a wall 6 meters from the man. At what angle is the light?
A spotlight on the ground 3 feet from a 5-foot tall woman casts a 15-foot tall shadow on a wall 6 feet from the woman. At what angle is the light?
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For the following exercises, find a solution to the following word problem algebraically. Then use a calculator to verify the result. Round the answer to the nearest tenth of a degree.
A person does a handstand with his feet touching a wall and his hands 1.5 feet away from the wall. If the person is 6 feet tall, what angle do his feet make with the wall?
A person does a handstand with her feet touching a wall and her hands 3 feet away from the wall. If the person is 5 feet tall, what angle do her feet make with the wall?
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A 23-foot ladder is positioned next to a house. If the ladder slips at 7 feet from the house when there is not enough traction, what angle should the ladder make with the ground to avoid slipping?
Chapter Review Exercises
Solving Trigonometric Equations with Identities
For the following exercises, find all solutions exactly that exist on the interval
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For the following exercises, use basic identities to simplify the expression.
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For the following exercises, determine if the given identities are equivalent.
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Yes
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Sum and Difference Identities
For the following exercises, find the exact value.
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For the following exercises, prove the identity.
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For the following exercise, simplify the expression.
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For the following exercises, find the exact value.
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Double-Angle, Half-Angle, and Reduction Formulas
For the following exercises, find the exact value.
Findandgivenandis in the interval
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For the following exercises, use (Figure) to find the desired quantities.
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For the following exercises, prove the identity.
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For the following exercises, rewrite the expression with no powers.
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Sum-to-Product and Product-to-Sum Formulas
For the following exercises, evaluate the product for the given expression using a sum or difference of two functions. Write the exact answer.
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For the following exercises, evaluate the sum by using a product formula. Write the exact answer.
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For the following exercises, change the functions from a product to a sum or a sum to a product.
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Solving Trigonometric Equations
For the following exercises, find all exact solutions on the interval
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For the following exercises, find all exact solutions on the interval
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For the following exercises, simplify the equation algebraically as much as possible. Then use a calculator to find the solutions on the intervalRound to four decimal places.
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For the following exercises, graph each side of the equation to find the approximate solutions on the interval
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Practice Test
For the following exercises, simplify the given expression.
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1
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1
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For the following exercises, find the exact value.
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For the following exercises, simplify each expression. Do not evaluate.
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For the following exercises, find all exact solutions to the equation on
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Rewrite the expression as a product instead of a sum:
For the following exercise, rewrite the product as a sum or difference.
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For the following exercise, rewrite the sum or difference as a product.
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Find all solutions of
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Find the solutions ofon the intervalalgebraically; then graph both sides of the equation to determine the answer.
For the following exercises, find all solutions exactly on the interval
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Findandgivenandis on the interval
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Rewrite the expressionwith no powers greater than 1.
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For the following exercises, prove the identity.
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A woman is standing 300 feet away from a 2000-foot building. If she looks to the top of the building, at what angle above horizontal is she looking? A bored worker looks down at her from the 15th floor (1500 feet above her). At what angle is he looking down at her? Round to the nearest tenth of a degree.
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Two frequencies of sound are played on an instrument governed by the equationWhat are the period and frequency of the "fast" and "slow" oscillations? What is the amplitude?
The average monthly snowfall in a small village in the Himalayas is 6 inches, with the low of 1 inch occurring in July. Construct a function that models this behavior. During what period is there more than 10 inches of snowfall?
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. From November 23 to February 6.
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A spring attached to a ceiling is pulled down 20 cm. After 3 seconds, wherein it completes 6 full periods, the amplitude is only 15 cm. Find the function modeling the position of the springseconds after being released. At what time will the spring come to rest? In this case, use 1 cm amplitude as rest.
Water levels near a glacier currently average 9 feet, varying seasonally by 2 inches above and below the average and reaching their highest point in January. Due to global warming, the glacier has begun melting faster than normal. Every year, the water levels rise by a steady 3 inches. Find a function modeling the depth of the watermonths from now. If the docks are 2 feet above current water levels, at what point will the water first rise above the docks?
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93.5855 months (or 7.8 years) from now
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Find the Exact Solution in Radians
Source: https://opentextbc.ca/algebratrigonometryopenstax/chapter/solving-trigonometric-equations/