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Trigonometry : Trigonometry

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6 Diagnostic Tests 155 Practice Tests Question of the Day Flashcards Learn by Concept

Example Questions

Example Question #3 : Finding Trigonometric Roots

Solve the equation for $0\leq x<2\pi$ .

$\cos 4x = \cos 2x$

Possible Answers:

$x=0; \frac{2\pi}{3}; \frac{4\pi}{3}; 2\pi; \frac{8\pi}{3}; \frac{10\pi}{3};$

No solution exists

$x=0; \frac{\pi}{3}; \frac{2\pi}{3}$

$x=0; \frac{2\pi}{3}; \frac{4\pi}{3}$

$x=0; \frac{\pi}{3}; \frac{2\pi}{3}; \pi; \frac{4\pi}{3}; \frac{5\pi}{3};$

Correct answer:

$x=0; \frac{\pi}{3}; \frac{2\pi}{3}; \pi; \frac{4\pi}{3}; \frac{5\pi}{3};$

Explanation:

We begin by substituting a new variable u=2x .

$\cos 2u=\cos u$ ; Use the double angle identity for $\cos 2u$ .

$2\cos ^2 u-1=\cos u$ ; subtract the $\cos u$ from both sides.

$2\cos ^2 u-\cos u-1=0$ ; This expression can be factored.

$(2\cos u+1)(\cos u-1)=0$ ; set each expression equal to 0.

$2\cos u+1=0$ or $\cos u -1=0$ ; solve each equation for $\cos u$

$\cos u = -\frac{1}{2}$ or $\cos u = 1$ ; Since we sustituted a new variable we can see that if $0\leq x<2\pi$ , then we must have $0\leq 2x < 4\pi$ . Since u=2x , that means $0\leq u<4\pi$ .

This is important information because it tells us that when we solve both equations for u, our answers can go all the way up to $4\pi$ not just $2\pi$ .

So we get

$2x = u=0; \frac{2\pi}{3}; \frac{4\pi}{3}; 2\pi; \frac{8\pi}{3}; \frac{10\pi}{3};$ Divide everything by 2 to get our final solutions

$x=0; \frac{\pi}{3}; \frac{2\pi}{3}; \pi; \frac{4\pi}{3}; \frac{5\pi}{3};$

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Example Question #1 : Finding Trigonometric Roots

Solve the following equation for $0\leq x<2\pi$ .

$\sin\left(\frac{x}{2}\right)=\cos x -1$

Possible Answers:

$x=0, \frac{7\pi}{6}, \frac{11\pi}{6}$

x=0

$x=0, \frac{\pi}{6}, \frac{5\pi}{6}$

$x=0, \frac{7\pi}{3}, \frac{11\pi}{3}$

$x=0, \frac{\pi}{3}, \frac{5\pi}{3}$

Correct answer:

x=0

Explanation:

$\sin\left(\frac{x}{2}\right)=\cos x -1$ ; We start by substituting a new variable. Let $u=\frac{x}{2}$ .

$\sin u=\cos 2u-1$ ; Use the double angle identity for cosine

$\sin u = 1-2\sin ^2 u-1$ ; the 1's cancel, so add $2\sin ^2u$ to both sides

$2\sin ^2u+\sin u=0$ ; factor out a $\sin u$ from both terms.

$\sin u(2\sin u+1)=0$ ; set each expression equal to 0.

$\sin u =0$ or $2\sin u +1=0$ ; solve the second equation for sin u.

$\sin u = 0$ or $\sin u = -\frac{1}{2}$ ; take the inverse sine to solve for u (use a unit circle diagram or a calculator)

$\frac{x}{2}=u=0, \frac{7\pi}{6}, \frac{11\pi}{6}$ ; multiply everything by 2 to solve for x.

$x=0, \frac{7\pi}{3}, \frac{11\pi}{3}$ ; Notice that the last two solutions are not within our range $0\leq x<2\pi$ . So the only solution is x=0 .

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Example Question #3 : Finding Trigonometric Roots

Solve the following equation for $0\leq x<2\pi$ .

$4\cos ^2x=3$

Possible Answers:

$x=\frac{\pi}{3}; \frac{2\pi}{3}; \frac{4\pi}{3}; \frac{5\pi}{3};$

$x=\frac{\pi}{6}; \frac{5\pi}{6}; \frac{7\pi}{6}; \frac{11\pi}{6}$

No solution exists

$x=\frac{\pi}{6}; \frac{11\pi}{6}$

$x=\frac{5\pi}{6}; \frac{7\pi}{6}$

Correct answer:

$x=\frac{\pi}{6}; \frac{5\pi}{6}; \frac{7\pi}{6}; \frac{11\pi}{6}$

Explanation:

$4\cos ^2x=3$ ; First divide both sides of the equation by 4

$\cos ^2x=\frac{3}{4}$ ; Next take the square root on both sides. Be careful. Remember that when YOU take a square root to solve an equation, the answer could be positive or negative. (If the square root was already a part of the equation, it usually only requires the positive square root. For example, the solutions to x^2=4 are 2 and -2, but if we plug in 4 into the function $f(x)=\sqrt{x}$ the answer is only 2.) So,

$\cos x = \pm \frac{\sqrt{3}}{2}$ ; we can separate this into two equations

$\cos x = \frac{\sqrt{3}}{2}$ and $\cos x =- \frac{\sqrt{3}}{2}$ ; we get

$x=\frac{\pi}{6}; \frac{11\pi}{6}$ and $x=\frac{5\pi}{6}; \frac{7\pi}{6}$

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Example Question #2 : Finding Trigonometric Roots

Solve the equation for $0\leq x<2\pi$ .

$3\tan^2x=1$

Possible Answers:

$x=\frac{5\pi}{6}; \frac{11\pi}{6}$

$x=\frac{\pi}{3}; \frac{2\pi}{3}; \frac{4\pi}{3}; \frac{5\pi}{3}$

$x=\frac{\pi}{6}; \frac{5\pi}{6}; \frac{7\pi}{6}; \frac{11\pi}{6}$

$x=\frac{\pi}{3}; \frac{4\pi}{3}$

$x=\frac{\pi}{6}; \frac{7\pi}{6}$

Correct answer:

$x=\frac{\pi}{6}; \frac{5\pi}{6}; \frac{7\pi}{6}; \frac{11\pi}{6}$

Explanation:

$3\tan^2x=1$ ; Divide both sides by 3

$\tan^2x=\frac{1}{3}$ ; Take the square root on both sides. Just as the previous question, when you take a square root the answer could be positive or negative.

$\tan x=\pm \frac{1}{\sqrt{3}}$ ; This can be written as two separate equations

$\tan x=\frac{1}{\sqrt{3}}$ and $\tan x=-\frac{1}{\sqrt{3}}$ ; Take the inverse tangent

$x=\frac{\pi}{6}; \frac{7\pi}{6}$ and $x=\frac{5\pi}{6}; \frac{11\pi}{6}$

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Example Question #1 : Finding Trigonometric Roots

Solve the following equation for $0\leq x<2\pi$ .

$\tan ^2x+2\tan x+1=0$

Possible Answers:

$x=\frac{\pi}{4}; \frac{5\pi}{4}$

$x=\frac{3\pi}{4}; \frac{7\pi}{4}$

$x=\frac{\pi}{4}; \frac{3\pi}{4}; \frac{5\pi}{4}; \frac{7\pi}{4}$

$x=\frac{\pi}{4}; \frac{3\pi}{4}$

$x=\frac{5\pi}{4}; \frac{7\pi}{4}$

Correct answer:

$x=\frac{3\pi}{4}; \frac{7\pi}{4}$

Explanation:

$\tan ^2x+2\tan x+1=0$ ; The expression is similar to a quadratic expression and can be factored.

$(\tan x+1)(\tan x+1)=0$ ; set both expressions equal to 0. Since they are the same, the solutions will repeat, so I will only write it once.

$\tan x+1=0$

$\tan x=-1$ ; take the inverse tangent on both sides

$x=\tan ^{-1}(-1)$

$x=\frac{3\pi}{4}; \frac{7\pi}{4}$

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Example Question #3 : Finding Trigonometric Roots

Solve the equation below for greater than or equal to and strictly less than .

sin(4x) = 0

Possible Answers:

only

and

Correct answer:

and

Explanation:

Recall the values of for which sin(v)= 0 . If it helps, think of sine as the values on the unit circle. Thus, the acceptable values of would be 0, 180, 360, 540 etc.. However, in our scenario v = 4x .

Thus we have 0 = 4x and 180 = 4x .

Any other answer would give us values greater than 90. When we divide by 4, we get our answers,

x=0 and x=45 .

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Example Question #3 : Finding Trigonometric Roots

Solve the following equation. Find all solutions such that $0\leq x <2\pi$ .

$2\sin x = 1$

Possible Answers:

$x=\frac{\pi}{6}; \frac{5\pi}{6}$

No Solution

$x=\frac{\pi}{3}; \frac{5\pi}{3}$

$x=\frac{\pi}{6}; \frac{5\pi}{6}; \frac{7\pi}{6}; \frac{11\pi}{6}$

$x=\frac{\pi}{6}$

Correct answer:

$x=\frac{\pi}{6}; \frac{5\pi}{6}$

Explanation:

$2\sin x=1$ ; Divide both sides by 2 to get

$\sin x=\frac{1}{2}$ ; take the inverse sine on both sides

$\sin^{-1}(\sin x)=\sin ^{-1}\bigg(\frac{1}{2}\bigg)$ ; the left side reduces to x, so

$x=\sin ^{-1}\bigg(\frac{1}{2}\bigg)$

At this point, either use a unit circle diagram or a calculator to find the value.

Keep in mind that the problem asks for all solutions between and $2\pi$ .

If you use a calculator, you will only get $\frac{\pi}{6}$ as an answer.

So we need to find another angle that satisfies the equation $\sin x=\frac{1}{2}$ .
Problem_1_set_1

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Example Question #7 : Finding Trigonometric Roots

Solve the following equation. Find all solutions such that $0\leq x<2\pi$ .

$\sin 2x=4\cos x$

Possible Answers:

$x=\frac{\pi}{2}; \frac{3\pi}{2}$

No solution exists

$x=\frac{\pi}{2}$

$x=0;\pi$

x=0

Correct answer:

$x=\frac{\pi}{2}; \frac{3\pi}{2}$

Explanation:

$\sin 2x=4\cos x$ ; First use the double angle identity for $\sin 2x$ .

$2\sin x \cos x = 4\cos x$ ; divide both sides by 2

$\sin x \cos x=2\cos x$ ; subtract the $2\cos x$ from both sides

$\sin x \cos x-2\cos x=0$ ; factor out the $\cos x$

$\cos x(\sin x-2)=0$ ; Now we have the product of two expressions is 0. This can only happen if one (or both) expressions are equal to 0. So let each expression equal 0.

$\cos x= 0$ or $\sin x-2=0$ ;

$\cos x = 0$ or $\sin x=2$ ; Take the inverse of each function for each expression.

$x=\cos ^{-1}(0)$ or $x=\sin ^{-1}(2)$ ; The second equation is not possible so gives no solution, but the first equation gives us:

$x=\frac{\pi}{2}; \frac{3\pi}{2}$

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Example Question #41 : Trigonometric Equations

Solve the following equation for $0\leq x<2\pi$ .

$2\sin ^2x=3\cos(2x)$

Possible Answers:

x=0.659; 2.483; 3.801; 5.624

x=0.659; 2.483

No solution exists

x=0.659

x=3.801; 5.624

Correct answer:

x=0.659; 2.483; 3.801; 5.624

Explanation:

$2\sin ^2x=3\cos(2x)$ ; use the double angle identity for cosine

$2\sin ^2x=3(1-2\sin ^2x)$ ; distribute the 3 on the right side

$2\sin ^2x=3-6\sin ^2x$ ; add the $6\sin ^2x$ to both sides

$8\sin ^2x=3$ ; divide both sides by 8

$\sin ^2x=\frac{3}{8}$ ; take the square root on both sides (Remember: it could be positive or negative)

$\sin x=\pm \frac{3}{8}$ ; separate into two equations and take the inverse sine

$x=\sin ^{-1}\left(\sqrt{\frac{3}{8}} \right )$ and $x=\sin ^{-1}\left(-\sqrt{\frac{3}{8}} \right )$ ; Use a calculator

x=0.659 and x=5.624 (calculator will give -0.659, but that is not in our range, so add $2\pi$ to get 5.624)

The last two solutions are found using a unit circle. Since our x can be negative or positive this means that there is a corresponding value in all of the quadrants.

Problem_1_set_9

Similarly, we can get our last answer x= 3.801 as this is the x value in the third quadrant and is found by adding $0.659+\pi=3.801$ .

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Example Question #42 : Trigonometric Equations

The equation $y=-6\cos 3t$ represents the motion of a weight hanging on a spring after it has been pulled 6 inches below its equilibrium point and released. The variable represents the weight's position above or below the equilibrium point. For example, y=-5 means the weight is 5 inches below its equilibrium point. y=+5 means the weight is 5 inches above its equilibrium point. The variable represents the time, in seconds, after the weight was released.

Find the first 2 times the weight is 3 inches below its equilibrium point.

Possible Answers:

$t=\frac{\pi}{3}; \frac{5\pi}{3}$

Not enough information is given

$t=\frac{\pi}{9}$

No solution exists

$t=\frac{\pi}{9}; \frac{5\pi}{9}$

Correct answer:

$t=\frac{\pi}{9}; \frac{5\pi}{9}$

Explanation:

You are asked to find the first TWO times the the weight is 3 inches below its equilibrium point. Since it is below the equilibrium, that 3 will be negative. The y variable is used to represent position so we need to have y=-3 .

$y=-3=-6\cos 3t$ ; now we solve. First, divide by -6.

$\frac{1}{2}=\cos 3t$ ; At this point, it may help to substitute a new variable. Once you get more practice with this type of problem, you can skip the substitution.

Let u=3t , then

$\cos u = \frac{1}{2}$ ; using a calculator or a unit circle diagram, find the first TWO angles that give us a cosing value of 1/2.

$u=\frac{\pi}{3}, \frac{5\pi}{3}$ ; bring back the variable t

$3t=\frac{\pi}{3}, \frac{5\pi}{3}$ ; divide each solution by 3

$t=\frac{\pi}{9}, \frac{5\pi}{9}$ .

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Trigonometry : Trigonometry

Study concepts, example questions & explanations for Trigonometry

All Trigonometry Resources

Example Questions

Example Question #3 : Finding Trigonometric Roots

Example Question #1 : Finding Trigonometric Roots

Example Question #3 : Finding Trigonometric Roots

Example Question #2 : Finding Trigonometric Roots

Example Question #1 : Finding Trigonometric Roots

Example Question #3 : Finding Trigonometric Roots

Example Question #3 : Finding Trigonometric Roots

Example Question #7 : Finding Trigonometric Roots

Example Question #41 : Trigonometric Equations

Example Question #42 : Trigonometric Equations

All Trigonometry Resources

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