First exam practice sheet - Austin Community College District
Date of test Wednesday, Sept 22 to Monday, Sept 27
Material covered Chapter 1, sections 1 through 6
Chapter 2, sections 1 through 5
Allowable materials Calculator (no TI-89 or 92)
Sample problems
1. The graph of [pic] is drawn below. Sketch the graph of [pic]
[pic]
2. If [pic], find [pic]
3. Write a formula for a linear function [pic] with slope 1.4, passing through the point [pic]
4. Write a formula for the linear function whose graph is shown:
[pic]
5. The graph of f below can be obtained by transformations of the graph of [pic]. Find a formula for [pic].
[pic]
6. Evaluate [pic] based on the graph of f below
[pic]
7. Evaluate the following based on the graphs of [pic] and [pic]below
[pic]
a. [pic]
b. [pic]
c. [pic]
d. draw a graph of [pic]
8. Determine whether the relation defined by the graph is a function
a.
b. [pic]
c.
[pic]
9. Federal income tax is calculated an individual’s annual income. Tax for an annual income of up to $63,550 is given by the piecewise function below, where T and x are both in dollars. Use this function to calculate the tax for the incomes given.
10.
[pic]
a. An annual income of $5200
b. An annual income of $22,500
11. Determine whether the graph represents an odd function, an even function, or neither.
a.
b. [pic]
c.
[pic]
d.
[pic]
12. Refer to the graph of f below:
a. What is the domain of f?
b. Approximate the zeros of f.
c. Over what intervals is f increasing? decreasing?
[pic]
13. Complete the table if [pic] is an even function
|x |-2 |-1 |0 |1 |2 |
|f(x) |5 |3 |2 | | |
14. Complete the graph of [pic] below if [pic]is an odd function
[pic]
15. Find the inverse of the function [pic]
16. Sketch the graph of the inverse of the function below, on the same grid:
[pic]
17. For each of the following pairs of functions, state whether they are inverses of each other.
a. [pic]
b. [pic]
18. Give a numeric representation of [pic]
|x |-2 |-1 |0 |1 |2 |
|f(x) |-10 |-4 |2 |3 |5 |
19. Determine whether an inverse exists for the function whose graph is drawn.
a.
b. [pic]
c.
[pic]
20. Find a function of the form [pic] that fits the data exactly
a.
|x |0 |1 |2 |3 |4 |
|f(x) |2 |6 |18 |54 |162 |
b.
|x |0 |1 |2 |3 |4 |
|f(x) |8 |4 |2 |1 |1/2 |
21. State that the function is odd, even, or neither:
a. [pic]
b. [pic]
c. [pic]
d. [pic]
22. Sketch a graph of the function [pic]. Clearly label scale on axes, and indicate intercepts, if any.
23. State the domain
a. [pic]
b. [pic]
c. [pic]
d. [pic]
24. The table gives Revenue for a tire company each year from 1990 to 1995.
|Year |1990 |1991 |1992 |1993 |1994 |1995 |
|Revenue ($m) |25.6 |28.3 |31.9 |34.8 |37.1 |40.5 |
a. Make a scatter plot of the data.
b. Find the regression line. You may use a calculator algorithm or come up with an approximation by hand. Explain what you did.
c. Draw the regression line on your scatter plot.
25. Match each of the graphs with a function from the list
[pic][pic][pic][pic]
I II III IV
a. [pic]
b. [pic]
c. [pic]
d. [pic]
26. Evaluate the logarithms. Approximate with a calculator if necessary.
a. [pic]
b. [pic]
c. [pic]
d. [pic]
e. [pic]
27. Write as a single logarithm and simplify. Do not evaluate with a calculator.
a. [pic]
b. [pic]
c. [pic]
28. Simplify the expression
a. [pic]
b. [pic]
29. Solve the equations. Give a simplified answer and a decimal approximation for each.
a. [pic]
b. [pic]
c. [pic]
d. [pic]
30. Krypton-85 is a radioactive isotope of Krypton, with a half-life of 10 years.
a. If 12 grams of Krypton-85 leak into a laboratory, give an equation for the amount of Krypton that will be present after t years.
b. How much will be present after 25 years?
31. The estimated population of the city of Austin is given by the equation [pic] where t is the number of years from now.
a. What will the population be in 10 years?
b. How long will it take the population to reach 1 million?
32. The height of an object t seconds after it is thrown into the air is described by the graph below.
[pic]
a. What is the average velocity for the first second after the ball is thrown? Draw the secant line whose slope is this average velocity.
b. What is the instantaneous velocity one second after the ball is thrown? Draw the tangent line whose slope is this instantaneous velocity.
33. The temperature in degrees Fahrenheit in Austin at each hour of a given day in March is described by the function [pic] where t is the number of hours past 10:00 AM.
a. What is the average rate of change of the temperature over the following timer intervals?
i. from 11:00 AM and 2:00 PM?
ii. from 11:00 AM to 12:00 noon
b. What is the instantaneous rate of change at 11:00 AM
34. For the piecewise-defined function [pic]
a. Sketch a graph of f
b. At what values of x is f discontinuous?
35. Evaluate the following limits if they exist, based on the graph of f drawn below.
[pic]
a. [pic]
b. [pic]
c. [pic]
d. [pic]
e. [pic]
f. Over what intervals is f continuous?
36. Evaluate the limits if they exist
a. [pic]
b. [pic]
c. [pic]
d. [pic]
e. [pic]
f. [pic]
g. [pic]
h. [pic]
i. [pic]
j. [pic]
37. Use the squeeze theorem to evaluate [pic] and prove your result.
Answers:
1.
1. [pic]
2. –4
3. [pic]
4. [pic]
5. [pic]
6. [pic]
7.
a. 5
b. 0
c. 4
d.
[pic]
8.
a. not a function
b. function
9.
a. $520
b. $3075
10.
a. neither
b. odd
c. even
11.
a. [pic]
b. [pic] and [pic]
c. increasing:
[pic]&[pic]
decreasing:[pic]
12.
|x |-2 |-1 |0 |1 |2 |
|f(x) |5 |3 |2 |3 |5 |
13.
[pic]
14. [pic], [pic]
15.
[pic]
16.
a. yes
b. no
17.
|x |-10 |-4 |2 |3 |5 |
|[pic] |-2 |-1 |0 |1 |2 |
18.
a. yes, an inverse exists
b. no inverse
19.
a. [pic]
b. [pic]
20.
a. neither
b. even
c. odd
d. even
21.
[pic]
22.
a. [pic]
b. [pic]
c. [pic]
d. [pic]
23.
a. (a & c)
[pic]
b. [pic] (LinReg on TI-83)
24.
a. II
b. IV
c. I
d. III
25.
a. –7
b. –3
c. 3
d. 2.708
e. [pic]
26.
a. [pic]
b. 0
c. [pic]
27.
a. [pic]
b. [pic]
28.
a. [pic]
b. [pic]
c. [pic]
d. [pic]
29.
a. [pic]
b. 2.12 grams
30.
a. 1.3 million
b. 6.15 years
31.
a. 12 meters per second
[pic]
b. 6.7 meters per second
[pic]
32.
a.
i. 3.6837 degrees per hour
ii. 4.3895 degrees per hour
b. 4.6024 degrees per hour
33.
a.
[pic]
b. discontinuous at x = 0
34.
a. 2
b. 4
c. does not exist
d. 0
e. 4
f. [pic]
35.
a. 4
b. does not exist (jump discontinuity)
c. –2
d. [pic]
e. [pic]
f. [pic]
g. 0
h. 0
i. –2
j. does not exist (oscillation)
36. [pic] and
[pic]. Therefore by the Squeeze Theorem [pic].
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