Phase Shifts - Trigonometry

Card 0 of 32

Question

Which of the following is equivalent to $2\sin(2x-3\pi)$

Answer

The first zero can be found by plugging 3π/2 for x, and noting that it is a double period function, the zeros are every π/2, count three back and there is a zero at zero, going down.

A more succinct form for this answer is $-2\sin(2x)$ but that was not one of the options, so a shifted cosine must be the answer.

The first positive peak is at π/4 at -1, so the cosine function will be shifted π/4 to the right and multiplied by -1. The period and amplitude still 2, so the answer becomes $-2\cos(2(x-\frac{\pi}{4}))$ .

To check, plug in π/4 for x and it will come out to -2.

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Question

Identify the phase shift of the following equation.

$y=-3sin(\frac{x}{2}+\frac{\pi}{4})+1$

Answer

If we use the standard form of a sine function

the phase shift can be calculated by $\frac{C}{B}$ . Therefore, in our case, our phase shift is

$\frac\frac{}{}{}{}$ $\frac{\frac{\pi}{4}}{\frac{1}{2}}=\frac{\pi}{4}\cdot2=\frac{\pi}{2}$

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Question

Which of the following is the correct definition of a phase shift?

Answer

Take the function for example. The graph for is

If we were to change the function to $cos(x + \pi)$ , our phase shift is $-\pi$ . This means we need to shift our entire graph $\pi$ units to the left.

Our new graph $cos(x + \pi)$ is the following

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Question

Consider the function $4sec(5(x+\frac{\pi}{3})) +10$ . What is the phase shift of this function?

Answer

The general form for the secant transformation equation is . represents the phase shift of the function. When considering $4sec(5(x+\frac{\pi}{3})) +10$ we see that $C = -\frac{\pi}{3}$ . So our phase shift is $-\frac{\pi}{3}$ and we would shift this function $\frac{\pi}{3}$ units to the left of the original secant function’s graph.

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Question

True or False: If the function has a phase shift of $n2\pi$ , then the graph will not be changed.

Answer

This is true because the graph has a period of $2\pi$ , meaning it repeats itself every $2\pi$ units. So if has a phase shift of any multiple of , then it will just overlay the original graph. This is shown below. In orange is the graph of and in purple is the graph of $sin(x + 4\pi)$ .

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Question

Which of the following is the graph of with a phase shift of $\frac{\pi}{2}$ ?

Answer

Start this problem by graphing the function of tangent.

Now we need to shift this graph $\frac{\pi}{2}$ to the right.

This gives us our answer

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Question

True or False: The function $csc(x + \pi)$ has a phase shift of $\pi$ .

Answer

The form of the general cosecant function is . So if we have $csc(x + \pi)$ then , which represents the phase shift, is equal to $-\pi$ . This gives us a phase shift of $-\pi$ .

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Question

Which of the following is the phase shift of the function $5 - cot(6x - \pi)$ ?

Answer

The general form of the cotangent function is . So first we need to get $cot(6x - \pi)$ into the form .

$cot(6x - \pi)$

$cot(6(x - \frac{\pi}{6}))$

From this we see that $C = \frac{\pi}{6}$ giving us our answer.

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Question

Which of the following is equivalent to $2\sin(2x-3\pi)$

Answer

The first zero can be found by plugging 3π/2 for x, and noting that it is a double period function, the zeros are every π/2, count three back and there is a zero at zero, going down.

A more succinct form for this answer is $-2\sin(2x)$ but that was not one of the options, so a shifted cosine must be the answer.

The first positive peak is at π/4 at -1, so the cosine function will be shifted π/4 to the right and multiplied by -1. The period and amplitude still 2, so the answer becomes $-2\cos(2(x-\frac{\pi}{4}))$ .

To check, plug in π/4 for x and it will come out to -2.

Compare your answer with the correct one above

Question

Identify the phase shift of the following equation.

$y=-3sin(\frac{x}{2}+\frac{\pi}{4})+1$

Answer

If we use the standard form of a sine function

the phase shift can be calculated by $\frac{C}{B}$ . Therefore, in our case, our phase shift is

$\frac\frac{}{}{}{}$ $\frac{\frac{\pi}{4}}{\frac{1}{2}}=\frac{\pi}{4}\cdot2=\frac{\pi}{2}$

Compare your answer with the correct one above

Question

Which of the following is the correct definition of a phase shift?

Answer

Take the function for example. The graph for is

If we were to change the function to $cos(x + \pi)$ , our phase shift is $-\pi$ . This means we need to shift our entire graph $\pi$ units to the left.

Our new graph $cos(x + \pi)$ is the following

Compare your answer with the correct one above

Question

Consider the function $4sec(5(x+\frac{\pi}{3})) +10$ . What is the phase shift of this function?

Answer

The general form for the secant transformation equation is . represents the phase shift of the function. When considering $4sec(5(x+\frac{\pi}{3})) +10$ we see that $C = -\frac{\pi}{3}$ . So our phase shift is $-\frac{\pi}{3}$ and we would shift this function $\frac{\pi}{3}$ units to the left of the original secant function’s graph.

Compare your answer with the correct one above

Question

True or False: If the function has a phase shift of $n2\pi$ , then the graph will not be changed.

Answer

This is true because the graph has a period of $2\pi$ , meaning it repeats itself every $2\pi$ units. So if has a phase shift of any multiple of , then it will just overlay the original graph. This is shown below. In orange is the graph of and in purple is the graph of $sin(x + 4\pi)$ .

Compare your answer with the correct one above

Question

Which of the following is the graph of with a phase shift of $\frac{\pi}{2}$ ?

Answer

Start this problem by graphing the function of tangent.

Now we need to shift this graph $\frac{\pi}{2}$ to the right.

This gives us our answer

Compare your answer with the correct one above

Question

True or False: The function $csc(x + \pi)$ has a phase shift of $\pi$ .

Answer

The form of the general cosecant function is . So if we have $csc(x + \pi)$ then , which represents the phase shift, is equal to $-\pi$ . This gives us a phase shift of $-\pi$ .

Compare your answer with the correct one above

Question

Which of the following is the phase shift of the function $5 - cot(6x - \pi)$ ?

Answer

The general form of the cotangent function is . So first we need to get $cot(6x - \pi)$ into the form .

$cot(6x - \pi)$

$cot(6(x - \frac{\pi}{6}))$

From this we see that $C = \frac{\pi}{6}$ giving us our answer.

Compare your answer with the correct one above

Question

Which of the following is equivalent to $2\sin(2x-3\pi)$

Answer

The first zero can be found by plugging 3π/2 for x, and noting that it is a double period function, the zeros are every π/2, count three back and there is a zero at zero, going down.

A more succinct form for this answer is $-2\sin(2x)$ but that was not one of the options, so a shifted cosine must be the answer.

The first positive peak is at π/4 at -1, so the cosine function will be shifted π/4 to the right and multiplied by -1. The period and amplitude still 2, so the answer becomes $-2\cos(2(x-\frac{\pi}{4}))$ .

To check, plug in π/4 for x and it will come out to -2.

Compare your answer with the correct one above

Question

Identify the phase shift of the following equation.

$y=-3sin(\frac{x}{2}+\frac{\pi}{4})+1$

Answer

If we use the standard form of a sine function

the phase shift can be calculated by $\frac{C}{B}$ . Therefore, in our case, our phase shift is

$\frac\frac{}{}{}{}$ $\frac{\frac{\pi}{4}}{\frac{1}{2}}=\frac{\pi}{4}\cdot2=\frac{\pi}{2}$

Compare your answer with the correct one above

Question

Which of the following is the correct definition of a phase shift?

Answer

Take the function for example. The graph for is

If we were to change the function to $cos(x + \pi)$ , our phase shift is $-\pi$ . This means we need to shift our entire graph $\pi$ units to the left.

Our new graph $cos(x + \pi)$ is the following

Compare your answer with the correct one above

Question

Consider the function $4sec(5(x+\frac{\pi}{3})) +10$ . What is the phase shift of this function?

Answer

The general form for the secant transformation equation is . represents the phase shift of the function. When considering $4sec(5(x+\frac{\pi}{3})) +10$ we see that $C = -\frac{\pi}{3}$ . So our phase shift is $-\frac{\pi}{3}$ and we would shift this function $\frac{\pi}{3}$ units to the left of the original secant function’s graph.

Compare your answer with the correct one above

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