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3-1 (Part 2) Practice
By Patrick Silvey
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Last updated about 3 years ago
18 questions
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1
Fill in the blanks to write a cosine function with an amplitude of 2 and a period of 1 pi.:
f(x) = _______ cos(_______ x)
Question 2
2.
Fill in the blanks to write a cosine function with an amplitude of 1 and a period of 3.:
f(x) = _______ cos(_______ x)
Question 3
3.
Fill in the blanks to write a cosine function with an amplitude of pi/2 and a period of pi/6:
f(x) = _______ cos(_______ x)
Question 4
4.
Fill in the blanks to write a sine function that would model the image (if a blank should be empty write "none"):
f(x) = _______ sin_______ (x_______ )_______
Question 5
5.
Fill in the blanks to write a cosine function that would model the image (if a blank should be empty write "none"):
f(x) = _______ cos_______ (x _______ )_______
Question 6
6.
Fill in the blanks to write a sine function that would model the image (if a blank should be empty write "none"):
f(x) = _______ sin_______ (x_______ )_______
Question 7
7.
Fill in the blanks to write a cosine function that would model the image (if a blank should be empty write "none"):
f(x) = _______ cos_______ (x _______ )_______
Question 8
8.
Fill in the blanks to write a sine function that would model the image (if a blank should be empty write "none"):
f(x) = _______ sin_______ (x _______ )_______
Question 9
9.
Fill in the blanks to write a cosine function that would model the image (if a blank should be empty write "none"):
f(x) = _______ cos_______ (x _______ )_______
Question 10
10.
Fill in the blanks to write a sine function that would model the image (if a blank should be empty write "none"):
f(x) = _______ sin_______ (x _______ )_______
Question 11
11.
Fill in the blanks to write a cosine function that would model the image (if a blank should be empty write "none"):
f(x) = _______ cos_______ (x _______ )_______
Question 12
12.
What is one solution to the equation over the interval from 0 to 2pi?
Question 13
13.
What is a second solution to the equation over the interval from 0 to 2pi?
Question 14
14.
What is a third solution to the equation over the interval from 0 to 2pi?
Question 15
15.
What is the last solution to the equation over the interval from 0 to 2pi?
Question 16
16.
What is one solution to the equation over the interval from 0 to 2pi? (Round to the nearest hundredth)
Question 17
17.
What is the other solution to the equation over the interval from 0 to 2pi? (Round to the nearest hundredth)
Question 18
18.
What is the solution to the equation over the interval from 0 to 2pi? (Round to the nearest hundredth)
