Test Bank for Calculus for the Life Sciences, 2nd Edition
Preview Extract
Exam
Name___________________________________
MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.
Match the graph to the function.
1)
1) _______
A) f(x) =
+ 1 B) f(x) =
– 1 C) f(x) =
D) f(x) =
2)
2) _______
A) f(x) =
3)
B) f(x) =
C) f(x) =
D) f(x) =
3) _______
A) f(x) =
B) f(x) = –
C) f(x) =
D) f(x) = –
4)
4) _______
A) f(x) = –
B) f(x) =
C) f(x) =
D) f(x) = –
5)
5) _______
A) f(x) = 6)
B) f(x) =
C) f(x) =
D) f(x) = –
6) _______
A) f(x) = -3
B) f(x) = 3
C) f(x) = 3
D) f(x) = -3
7)
7) _______
A) f(x) =
– 2 B) f(x) =
C) f(x) =
D) f(x) =
+2
8)
8) _______
A) f(x) =
B) f(x) =
+ 2 C) f(x) =
D) f(x) =
-2
9)
9) _______
A) y =
B) y =
C) y =
D) y =
10)
10) ______
A) y =
– 2B) y =
-2
Solve the equation.
11) 4x = 64
11) ______
A) 2
B) 4
C) 3
D) 16
12)
=
12) ______
A) -3
B)
C)
D) 3
13) 3(12 – 3x) = 729
13) ______
A) 4
B) -2
C) 243 D) 2
14) 3(1 + 2x) = 27
A) -1 B) 9
C) 3
14) ______
D) 1
C) y =
– 2 D) y =
-2
15) 4(7 – 3x) =
15) ______
A) 4
B)
C) 3
16)
=
16) ______
A) -3
B)
C)
17) 4(7 + 3x) =
A) 3
B) -3
18)
=
A)
B)
19)
D) -3
D) 3
17) ______
C) 4
D)
18) ______
C) 0
=
D) –
19) ______
A) 2, -2 B) 3, -3 C) 3
D) 1, -1
Graph the function.
20) y = 4
-1
20) ______
A)
B)
C)
D)
21) y = -4
-4
21) ______
A)
B)
C)
D)
22) y = 5
+3
22) ______
A)
B)
C)
D)
23) y = 2
-3
23) ______
A)
B)
C)
D)
24) y = -2
+3
24) ______
A)
B)
C)
D)
Solve the problem.
25) Find the amount of interest earned on the following deposit: $1000 at 6% compounded annually for 8 years
______
A) $689.48
B) $1593.85
C) $503.63
25)
D) $593.85
26) How long will it take for prices in the economy to double at a 5% annual inflation rate? Round to the nearest
hundredth when necessary.
26) ______
A) 11.9 yr
B) 14.21 yr
C) 23.45 yr
D) 22.52 yr
27) An economist predicts that the buying power B(x) of a dollar x years from now will decrease according to the formula
B(x) = 0.46x. How much will today’s dollar be worth in 3 years? Round to the nearest cent.
27) ______
A) $1.38
B) $0.10 C) $1.66 D) $0.79
28) Find the interest earned on
cent. 28) ______
A) $15,334.74
B) $1987.77
invested for 5 years at
C) $1.39 D) $4334.74
29) Find the interest earned on
cent. 29) ______
A) $4355.80
B) $4518.69
interest compounded quarterly. Round to the nearest
invested for 6 years at
C) $4528.02
interest compounded monthly. Round to the nearest
D) $4487.93
30) Suppose that the number of bacteria in a culture after x hours is given by
in the culture after 10 hours?
30) ______
A) 13,133 bacteria
C) 828,614 bacteria
B) 7477 bacteria
D) 3 bacteria
31) Suppose that the number of bacteria in a culture after x hours is given by
the culture after 4 hours?
31) ______
A) 18,000 bacteria
. How many bacteria are
B) 39 bacteria
. How many bacteria are in
C) 1661 bacteria D) 134 bacteria
32) The population of a particular city is increasing at a rate proportional to its size. It follows the function P(t) = 1 +
ke0.04t where k is a constant and t is the time in years. If the current population is 37,000, in how many years is the
population expected to be 92,500?
32) ______
A) 13 yr B) 10 yr C) 23 yr D) 147 yr
33) The number of dislocated electric impulses per cubic inch in a transformer increases when lightning strikes by D =
9200(5)x, where x is the time in milliseconds of the lightning strike. Find the number of dislocated impulses at x = 0 and x
= 4.
33) ______
A) 46,000; 5,750,000
B) 9200; 5,750,000
C) 9200; 184,000 D) 9200; 28,750,000
34) The number of bacteria growing in an incubation culture increases with time according to
where x is
time in days. Find the number of bacteria when x = 0 and x = 4.
A) 7800 bacteria, 4,875,000 bacteria
C) 39,000 bacteria, 4,875,000 bacteria
34) ______
B) 7800 bacteria, 156,000 bacteria
D) 7800 bacteria, 24,375,000 bacteria
35) The number of books in a small library increases according to the function B = 5400e 0.02t, where t is measured in
years. How many books will the library have after 9 years?
35) ______
A) 4022 books B) 8173 books
C) 6465 books
D) 9260 books
Write the exponential equation in logarithmic form.
36) 72 = 49
36) ______
A) log7 49 = 2
B) log2 49 = 7
C) log7 2 = 49
D) log49 7 = 2
37) 42 = 16
A) log4 16 = 2
37) ______
B) log2 16 = 4
C) log4 2 = 16
D) log16 4 = 2
38) 4-2 =
38) ______
A) log1/16 4 = -2
B) log4 -2 =
C) log-2
39)
=
A)
(-2) =
B)
= -2
C)
(-2) =
D)
= -2
= 4 D) log4
= -2
39) ______
Write the logarithmic equation in exponential form.
40) log4
A)
= -2
=4
40) ______
B) 24 =
41) log2 8 = 3
41) ______
A) 32 = 8
B) 83 = 2
42) log 0.00001 = -5
A) 0.00001-5 = 10
43)
A)
C) 416 = 2
D) 4-2 =
C) 28 = 3
D) 23 = 8
42) ______
B) -510 = 0.00001
C) 10-5 = 0.00001
16 = 4 43) ______
= 16
B)
=
C)
=4
D)
= 16 + 1
D) 100.00001 = -5
44) log 100 = 2 44) ______
A)
= 100
B)
=
45) ln x = 7
45) ______
A)
B)
=x
=e
46) ln
= -6 46) ______
A)
= -6
B)
47) ln
=8
47) ______
A) ln 8 = 8
48) ln
A)
B)
=
=
=
=8
C)
=2
D)
= 1000
C)
=x
D)
=7
C)
=
D)
C) ln
=
D)
C)
=
D)
B) ln
B) 4
50) log4
A) 0
=
51) log7
A) 7
C) 3
D) 12
50) ______
B) -1
C) 1
D) 4
51) ______
B) -2
C) 2
D) -7
52) log10 10
52) ______
A) 1
C) 0
B) -1
D) 10
53) log9
53) ______
A) -81 B) 3
C) -3
54) log8 32
54) ______
A)
C)
B)
=
48) ______
Evaluate the logarithm without using a calculator.
49) log4 64
49) ______
A) 64
=e
D) 81
D)
=
55) ln e 55) ______
A) 1
B) 0
C) -1
D) e
56) ln l 56) ______
A) -1 B) e
C) 0
D) 1
57)
57) ______
A) – 2
B) 2
C) –
D)
58) ln
58) ______
A)
C)
e B)
D)
e
Rewrite the expression as a sum, difference, or product of simpler logarithms.
59) log8 11x
59) ______
A) log8 11 – log8 x
60) log6 xy
B) log3 x – log3 y
B) log4 9 – log4 10
log2 6 – log2 11 B) log4 11 –
C)
log4 6 + log4 11 D)
63)
63) ______
C)
3p –
C) log6 x + log6 y
D) log6 x – log6 y
C) log4 9 + log4 10
D) log4 10 – log4 9
62) ______
A)
A)
D) log4 11 – log4 x
61) ______
A) log2 9 – log2 10
62) log4
C) log4 11 + log4 x
60) ______
A) log3 x + log3 y
61) log4
B) log8 11 + log8 x
5k
log4 6
log4 6 – log4 11
B)
D)
3+
p-1-
k
64)
A)
64) ______
2+
6-
C)
3
B)
2+5
6-4
3
D)
Use the properties of logarithms to find the value of the expression.
65) Let logb A = 2 and logb B = -3. Find logb AB. 65) ______
A) -6
B) 6
C) -1
D) 5
66) Let logb A = 4 and logb B = -20. Find logb
A) -16 B)
C) 24
. 66) ______
D) –
67) Let logb A = 3 and logb B = -4. Find logb B2. 67) ______
A) 6
B) -16
C) -8
D) 16
68) Let logb A = 3 and logb B = -2. Find logb 2
A) -2.449
.
68) ______
B) 0.500 C) 2.449 D) 2
69) Let logb A = 2.518 and logb B = 0.186. Find logb AB. 69) ______
A) 2.332
B) 13.538
C) 0.468 D) 2.704
70) Let logb A = 3.098 and logb B = 0.234. Find logb
A) 2.864
. 70) ______
B) 0.725 C) 3.098 D) 3.332
71) Let logb 6 = a and logb 3 = c. Find logb
A) 3ab B) 3(a + b)
C) 3b + a – 5
.
71) ______
D) 3a + 5
Use natural logarithms to evaluate the logarithm to the nearest thousandth.
72) log9 33
72) ______
A) 3.667
B) 1.591 C) 1.519 D) 0.628
73) log2 0.358
73) ______
A) -0.446
B) -1.482
74) log7.9 192
74) ______
A) 2.283
B) 0.393 C) 24.304
C) 5.587 D) -0.675
D) 2.544
75) log3.4 2.3
75) ______
A) 1.469
B) 0.681 C) 0.676 D) 0.362
76) log
A) 0.106
180.1 76) ______
B) 9.455 C) 4.727 D) 0.239
Solve the equation.
77) log 3x = log 2 + log (x + 5)
A)
B) 10
C) -10 D) 2
78) log (x + 5) = log (2x + 3)
A) 8
B) –
C) -2
78) ______
D) 2
79) log2 x = 3
79) ______
A) 8
C) 1.58 D) 6
B) 9
77) ______
80) logy 13 = 2 80) ______
A) 132 B) 131/2
C)
D) 21/13
81) log (3 + x) – log (x – 4) = log 2 81) ______
A)
B) 11
C) -11 D) No solution
82) log7 (5x – 3) = log7 (2x + 6)
A) 3
B) 3
C) 1
D) No solution
83) log8 (6x + 5) = log8 (6x + 7)
A)
B) – 6
C) 0
82) ______
83) ______
D) No solution
84) log9 x2 = log9 (4x + 12)
84) ______
A) 6, -2
D) No solution
B)
C) 6
85)
log2 x2 = log4 4x 85) ______
A) 4
B) 8
C) 4, 0 D) No solution
Solve the equation. Round decimal answers to the nearest thousandth.
86)
= 13
A) 1.872
87)
86) ______
B) 3.700 C) 6.500 D) 0.270
= 0.05
87) ______
A) 2.996
B) -2.5 C) -149.787
88)
=2
A) -7.699
88) ______
B) -7.307
D) 149.787
C) 0.087 D) 8.693
89)
A) 1.004
= 11
89) ______
B) -0.090
C) 1.583 D) 1.243
90) 6
A) 0.020
= 18
90) ______
B) -0.104
C) 0.420D) 3.400
91)
A) -4.507
= 2 91) ______
B) -0.687
C) -3.813
D) -2.597
92) 10
=9
92) ______
A) -8.96 B) 0.21 C) 0.164D) 0.000
Write the expression using base e rather than base 10.
93)
93) ______
A) 10
B)
94)
94) ______
A)
B)
C)
C) 10
D)
Approximate the expression in the form
95)
95) ______
A)
B)
96)
96) ______
A)
B)
D) (x + 9)
without using e. Round to the nearest thousandth when necessary.
C)
D)
C)
D)
Find the domain of the function.
97) f(x) = log (x – 6)
97) ______
A) x > 0 B) x > 6 C) x > -6
D) x > 1
98) f(x) = ln (-5 – x)
98) ______
A) x -5C) x > 5 D) x < 5
99) f(x) = log8 (4 – x2)
A) -2 โค x โค 2
99) ______
B) x 2
C) -2 < x < 2
D) -4 < x < 4
100) f(x) = ln (7x – x2)
100) _____
A) -7 < x < 7
B) -7 โค x < 0
C) x โค 7 D) 0 < x < 7
Solve the problem.
101) Sonja and Chris both accept new jobs on March 1, 2001. Sonja starts at
Chris starts at
with a raise on March 1 of each year of
with a raise each March 1 of
.
. In what year will Chris' salary exceed Sonja's? 101)
_____
A) 2019 B) 2018 C) 2016 D) 2017
102) A college student invests $8000 in an account paying
per year compounded annually. In how many years will
the amount at least double? Round to the nearest tenth when necessary. 102) _____
A) 16.3 yr
B) 9 yr C) 11.9 yr
D) 14.3 yr
103) How long will it take for prices in the economy to double at a 4% annual inflation rate? Round to the nearest
hundredth when necessary.
103) _____
A) 23.45 yr
B) 17.67 yr
C) 14.21 yr
D) 28.01 yr
104) Assume the cost of a car is $27,000. With continuous compounding in effect, find the number of years it would take
to double the cost of the car at an annual inflation rate of 4%. Round to the nearest hundredth.
104) _____
A) 17.33 yr
B) 272.42 yr
C) 2.55 yr
D) 255.09 yr
105) Suppose the consumption of electricity grows at 8% per year, compounded continuously. Find the number of years
before the use of electricity has tripled. Round to the nearest hundredth. 105) _____
A) 1.37 yr
B) 13.73 yr
C) 37.50 yr
D) 0.14 yr
106) The purchasing power of a dollar is decreasing at the rate of 4% annually, compounded continuously. How long will
it take for the purchasing power of $1.00 to be worth $0.36? Round to the nearest hundredth.
106) _____
A) 2.55 yr
B) 25.54 yr
C) 9.00 yr
D) 0.26 yr
107) At what interest rate must $4400 be compounded annually to equal $8711.70 after 14 years? Round to the nearest
percent. 107) _____
A) 7% B) 4%
C) 5% D) 6%
108) Kimberly invested
in her savings account for 5 years. When she withdrew it, she had
. Interest was
compounded continuously. What was the interest rate on the account? Round to the nearest tenth of a percent when
necessary.
108) _____
A) 6.8% B) 7%
C) 6.9% D) 7.05%
109) The magnitude of an earthquake, measured on the Richter scale, is given by
registered on a seismograph located 100 km from the epicenter of the earthquake, and
where I is the amplitude
is the amplitude of a certain
small size earthquake. Find the Richter scale rating of an earthquake with an amplitude of 63,096
.
109) _____
A) 3.8 B) 0.48 C) 11.1 D) 4.8
110) The magnitude of an earthquake, measured on the Richter scale, is given by
registered on a seismograph located 100 km from the epicenter of the earthquake, and
where I is the amplitude
is the amplitude of a certain
small size earthquake. An earthquake measured 4.5 on the Richter scale. Express this reading in terms of
_____
A) 25,119
B) 90
C) 31,623
registered on a seismograph located 100 km from the epicenter of the earthquake, and
where I is the amplitude
is the amplitude of a certain
small size earthquake. Find the Richter scale rating of an earthquake with an amplitude of
.
111) _____
C) 13.6 D) 4.1
112) A certain noise has intensity 8.62 ร
where
110)
D) 3162
111) The magnitude of an earthquake, measured on the Richter scale, is given by
A) 15.9 B) 5.9
.
. What is the decibel rating of this sound? Use the formula
is a faint threshold sound, and I is the intensity of the sound.โ 112) _____
A) 9 decibels
B) 79 decibels
C) 89 decibels
D) 206 decibels
113) The pH of a solution is defined as pH = -log[ ], where [ ] is the concentration of hydrogen ions in the solution.
The pH of pure water is 7, while the pH of lemon juice is about 2. How much greater is the concentration of hydrogen
ions in lemon juice than in pure water? 113) _____
A) 10,000 times greater B) 5 times greater
C) 10 times greater
D) 100,000 times greater
114) An RC circuit is a simple electronic circuit consisting of a resistor, a capacitor, and a battery. The current i in the
circuit at some time t after the battery is connected is i =
, where V is the battery's voltage, R is the resistance,
and C is the capacitance. Solve this equation for C.
114) _____
A) C =
B) C =
C) C =
D) C =
115) One hundred rats are being trained to run through a maze and are rewarded when they run through it correctly.
Once a rat successfully runs the maze, it continues to run the maze correctly in all subsequent trials. The number of rats
that run the maze incorrectly after t attempts is given approximately by
Find the number of trials
required such that only 45% of the rats are running the maze incorrectly. Round to the nearest trial.
115) _____
A) 23 trials
B) 6 trials
C) 5 trials
D) 27 trials
116) The population growth of an animal species is described by
where t is measured in
months. Find the population of this species in an area 1 month(s) after the species is introduced. 116) _____
A) 380 B) 200 C) 290 D) 540
117) Coyotes are one of the few species of North American animals with an expanding range. The future population of
coyotes in a region of Mississippi can be modeled by the equation
, where t is time in years. Use the
equation to determine when the population will reach 140. (Round to the nearest tenth of a year.) 117) _____
A) 8248.4 yr
B) 11.5 yr
C) 11.2 yr
D) 11.4 yr
118) Find the effective rate corresponding to the nominal rate. 6% compounded monthly. Round to the nearest
hundredth.
118) _____
A) 6.26%
B) 6.23%
C) 6.17%
D) 6.12%
119) Find the effective rate corresponding to the nominal rate. 6% compounded quarterly. Round to the nearest
hundredth.
119) _____
A) 6.23%
B) 6.14%
C) 6.09%
D) 6.20%
120) Find the present value of the deposit. $5000 at 4% compounded monthly for 5 years. Round to the nearest cent.
120) _____
A) $6084.98
B) $4115.02
C) $4095.02
D) $6104.98
121) Find the present value of the deposit. $7000 at 6% compounded quarterly for 3 years. Round to the nearest cent.
121) _____
A) $5872.71
B) $8351.33
C) $5854.71
D) $8369.33
122) Find the present value of the deposit. $500 at 7% compounded continuously for 10 years. Round to the nearest dollar.
122) _____
A) $248 B) $10,690
C) $3547
D) $7240
123) Find the present value of the deposit. $10,000 at 4% compounded continuously for 10 years. Round to the nearest
dollar. 123) _____
A) $167,587
B) $122,941
C) $6703
D) $417,587
124) Barbara knows that she will need to buy a new car in 5 years. The car will cost $15,000 by then. How much should
she invest now at 6%, compounded quarterly, so that she will have enough to buy a new car? Round to the nearest cent.
124) _____
A) $12,939.13
B) $11,137.06
C) $11,881.40
D) $10,574.41
125) Southwest Dry Cleaners believes that it will need new equipment in 6 years. The equipment will cost $26,000. What
lump sum should be invested today at 6% compounded semiannually, to yield $26,000? Round to the nearest cent.
125) _____
A) $18,235.88
B) $21,894.60
C) $23,593.24
D) $21,731.62
126) An investment of $13,335 earns 8% interest compounded monthly for 2 years. (a) What is the value of the investment
after 2 years? (b) If money can be deposited at 6% compounded quarterly, find the present value of the investment.
Round to the nearest cent.
126) _____
A) (a) $15,640.46
(b) $13,884.21 B) (a) $15,536.88
(b) $14,518.42 C) (a) $16,640.46
(b) $15,518.42
(b) $14,092.47
D) (a) $14,063.02
127) If money can be invested at 6% compounded quarterly, which is larger — $1000 now or the present value of $1210 left
at 6% interest for 5 years?
127) _____
A) $1000 now
B) Present value of $1210 left for 5 years
128) A certificate of deposit pays
interest compounded quarterly. What effective interest rate does the CD pay?
Round to the nearest tenth when necessary.
128) _____
A) 5.1% B) 5.8% C) 21.6%
D) 4%
129) The sales of a new model of notebook computer are approximated by:
, where x represents
the number of months the computer has been on the market and S represents sales in thousands of dollars. In how many
months will the sales reach $2,200,000? Round to the nearest month.
129) _____
A) 21 months
B) 25 months
C) 28 months
D) 18 months
130) The sales of a mature product (one which has passed its peak) will decline by the function S(t)=
time in years. Find the sales after 11 years if a = 0.24 and
A) 739 sales
B) 1477 sales
C) 1162 sales
= 20,700. Round to the nearest sale.
e-at, where t is
130) _____
D) 16,283 sales
131) The number of books in a small library increases according to the function B = 2100e 0.03t, where t is measured in
years. How many books will the library have after 8 years? Round to the nearest book. 131) _____
A) 3649 books B) 2997 books
C) 1302 books
D) 2670 books
132) In the formula N = Iekt, N is the number of items in terms of an initial population I at a given time t and k is a growth
constant equal to the percent of growth per unit time. How long will it take for the population of a certain country to
double if its annual growth rate is 6%? Round to the nearest year.
132) _____
A) 33 yr B) 5 yr C) 12 yr D) 1 yr
133) In the formula N = Iekt, N is the number of items in terms of an initial population I at a given time t and k is a growth
constant equal to the percent of growth per unit time. How long will it take for the population of a certain country to
triple if its annual growth rate is 0.5%? Round to the nearest year.
133) _____
A) 1 yr B) 600 yr
C) 95 yr D) 220 yr
134) In the formula N = Iekt, N is the number of items in terms of an initial population I at a given time t and k is a growth
constant equal to the percent of growth per unit time. There are currently 73 million cars in a certain country, increasing
by 3.8% annually. How many years will it take for this country to have 101 million cars? Round to the nearest year.
134) _____
A) 4 yr B) 7 yr C) 88 yr D) 9 yr
135) The number of acres in a landfill decreases according to the function B = 6200e -0.03t, where t is measured in years.
How many acres will the landfill have after 5 years?
135) _____
A) 11,762 acres B) 5336 acres
C) 5108 acres
D) 4389 acres
136) A bacteria colony doubles in 5 hr. How long does it take the colony to triple? Use N = N 0 2t/T, where N0 is the initial
number of bacteria and T is the time in hours it takes the colony to double. (Round to the nearest hundredth, as
necessary.)
136) _____
A) 7.92 hr
B) 7.5 hr
C) 2.03 hr
D) 15 hr
137) The population of a small country increases according to the function B = 1,100,000e 0.05t, where t is measured in
years. How many people will the country have after 9 years?
137) _____
A) 3,100,221 people
C) 1,725,143 people
B) 878,358 people
D) 381,466 people
138) Use the formula P = Iekt. A bacterial culture has an initial population of 10,000. If its population declines to 5000 in 6
hours, what will it be at the end of 8 hours?
138) _____
A) 2500 bacteria B) 1985 bacteria C) 3969 bacteria D) 4353 bacteria
139) In the formula A(t) =
ekt, A(t) is the amount of radioactive material remaining from an initial amount
at a
given time t and k is a negative constant determined by the nature of the material. A certain radioactive isotope has a
half-life of approximately 1950 years. How many years would be required for a given amount of this isotope to decay to
45% of that amount?
139) _____
A) 1682 yr
B) 2201 yr
C) 2246 yr
D) 1072.5 yr
140) In the formula A(t) =
ekt, A(t) is the amount of radioactive material remaining from an initial amount
at a
given time t and k is a negative constant determined by the nature of the material. An artifact is discovered at a cert ain
site. If it has 74% of the carbon-14 it originally contained, what is the approximate age of the artifact, rounded to the
nearest year? (carbon-14 decays at the rate of 0.0125% annually.) 140) _____
A) 1046 yr
B) 2080 yr
C) 5920 yr
D) 2409 yr
141) In the formula A(t) =
ekt, A(t) is the amount of radioactive material remaining from an initial amount
at a
given time t and k is a negative constant determined by the nature of the material. A certain radioactive isotope decays at
a rate of 0.3% annually. Determine the half-life of this isotope, to the nearest year.
141) _____
A) 2 yr B) 231 yr
C) 167 yr
D) 100 yr
142) The amount of particulate matter left in solution during a filtering process decreases by the equation
where n is the number of filtering steps. Find the amounts left for n = 0 and n = 5. (Round to the nearest whole number.)
142) _____
A) 600, 4800
B) 1200, 75
C) 600, 19
D) 600, 75
143) The decay of 279 mg of an isotope is given by A(t)= 279e -0.012t, where t is time in years. Find the amount left after 60
years. 143) _____
A) 276 mg
B) 136 mg
C) 134 mg
D) 68 mg
144) Newton's law of cooling states that the temperature f(t) of a body at time t is given by:
where C
and k are constants and
is the temperature of the environment in which the object rests. If
C = -28.5 and k = 0.04 and t is in hours, how long will it take for a frozen roast to thaw to a temperature of 0ยฐC in a
refrigerator that is at 5ยฐC? Round your answer to the nearest hour.
144) _____
A) 48 hrB) 38 hr C) 42 hr D) 44 hr
145) Newton's law of cooling states that the temperature f(t) of a body at time t is given by:
where C
and k are constants and
is the temperature of the environment in which the object rests. If
C = 280 and k = 0.17 and t is in minutes, how long will it take for a glass baking dish containing brownies to cool to a
comfortable-to-touch temperature of 93ยฐF in a room that is at 72ยฐF? Round your answer to the nearest minute.
145)
_____
A) 19 min
B) 15 min
C) 10 min
D) 12 min
SHORT ANSWER. Write the word or phrase that best completes each statement or answers the question.
Provide an appropriate response.
146) f(x) = ax
The graph of an exponential function with base a is given. Sketch the graph of g(x) = -ax. Give the domain and range of g.
146) ____________
147) f(x) = ax
The graph of an exponential function with base a is given. Sketch the graph of h(x) = a -x. Give the domain and range of h.
147) ____________
148) Explain how the graph of y = 3x – 5 – 5 can be obtained from the graph of y = 3x.
149) Explain how the graph of y =
– 3 can be obtained from the graph of y = 2x.
148) ____________
149) ____________
MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.
Convert the degree measure to radians. Leave the answer as a multiple of ฯ.
150) 90ยฐ 150) _____
A)
B)
C)
D)
151) -30ยฐ
151) _____
A) –
C) –
B) –
D) –
152) 570ยฐ
152) _____
A)
C)
B)
D)
153) 630ยฐ
153) _____
A) 7ฯ
C) –
B)
D) –
154) 330ยฐ
154) _____
A)
C)
B)
D)
155) 162ยฐ
155) _____
A)
C) ฯ
B)
D)
156) 470ยฐ
156) _____
A)
B)
157) 370ยฐ
157) _____
A)
ฯB)
ฯ C)
ฯ
C)
ฯ D)
ฯ
Convert the radian measure to degrees.
158)
158) _____
A) 90ยฐ B) 45ยฐ C) 32.5ยฐ D) 22.5ยฐ
D)
159) –
159) _____
A) -30ยฐ B) -60ยฐ C) -40ยฐ D) -120ยฐ
160)
160) _____
A) 495ยฐ B) 1980ยฐC) 990ยฐ D) 505ยฐ
161) –
161) _____
A) -900ยฐB) -225ยฐ C) -450ยฐ D) -235ยฐ
Find the indicated trigonometric function for ฮธ, given that ฮธ is an angle in standard position with the terminal side
defined by the given point.
162) (18, 24); find sin ฮธ 162) _____
A)
B)
C)
D)
163) (12, 16); find cos ฮธ163) _____
A)
B)
C)
D)
164) (-15, 36); find sin ฮธ
A) –
B) –
C)
D)
165) (-20, -48); find cos ฮธ
A) –
B) –
C) –
B) –
C)
165) _____
D)
166) (-10, 24); find sec ฮธ
A) –
164) _____
166) _____
D) –
167) (21, 28); find csc ฮธ 167) _____
A)
B)
C)
D)
168) (15, -20); find csc ฮธ
A) –
B)
C)
168) _____
D) –
169) (-6, 9); find tan ฮธ 169) _____
A) –
B) –
C) –
D)
170) (4, 8); find cot ฮธ
170) _____
A)
D)
B)
C) 2
If ฮธ is an angle in the indicated quadrant, determine whether the given function is positive or negative.
171) II, sec ฮธ
171) _____
A) Negative
B) Positive
172) III, cot ฮธ
A) Positive
172) _____
B) Negative
173) IV, cot ฮธ
A) Positive
173) _____
B) Negative
174) II, sin ฮธ
A) Positive
174) _____
B) Negative
175) III, cos ฮธ
A) Positive
175) _____
B) Negative
176) IV, sin ฮธ
A) Positive
176) _____
B) Negative
177) II, tan ฮธ
A) Positive
177) _____
B) Negative
178) III, csc ฮธ
A) Positive
178) _____
B) Negative
179) IV, sec ฮธ
A) Positive
179) _____
B) Negative
180) I, csc ฮธ
A) Negative
180) _____
B) Positive
Give the exact value.
181) cot 30ยฐ
181) _____
A) 1
B)
C)
D)
182) sin 60ยฐ
182) _____
A)
C)
B)
D)
183) cos 45ยฐ
183) _____
A)
C)
B)
184) cos 210ยฐ
D)
184) _____
A) –
B)
185) tan 300ยฐ
185) _____
A) –
B)
186) cot 120ยฐ
186) _____
A)
C) –
B) -1
C) –
C) –
D)
D) –
187) sec 240ยฐ
187) _____
A) –
B)
188) sec 150ยฐ
188) _____
A)
B)
189) csc 240ยฐ
189) _____
A) -2
C) –
B) 2
D)
C) -2
D) 2
C) –
D) –
D)
190) csc 330ยฐ
190) _____
A) –
B) -2
C) 2
D)
Find the exact value of the following expression without using a calculator.
191) csc
191) _____
A)
B)
192) sec
192) _____
A)
B)
193) cos
A)
C) 2
C)
D)
193) _____
B)
C)
D)
D) 2
194) sin
A)
194) _____
B) –
195) cos
A)
196) tan
197) csc
D) –
C)
D) –
197) _____
B) –
198) sec
A) –
C) –
196) _____
B)
A) –
D)
195) _____
B)
A) –
C) –
C) –
D) –
198) _____
B) –
C)
D) -2
199) cot
199) _____
A) –
B)
200) sec(ฯ)
A) -1 B) 0
200) _____
C) 1
D) Undefined
C) –
D)
Find all values of x between 0 and 2ฯ that satisfy the equation.
201) cos x =
201) _____
A)
B)
,
,
C)
,
D)
,
202) sin x =
202) _____
A)
B)
,
,
C)
203) tan x =
203) _____
A)
B)
,
,
204) csc x = 2
204) _____
A)
B)
,
,
205) sec x = –
205) _____
A)
B)
,
,
,
D)
,
C)
,
D)
C)
,
D)
,
D)
,
C)
,
,
Use a calculator to find the function value to four decimal places.
206) sin 72.9ยฐ 206) _____
A) 0.9558
B) 0.2940
C) 3.2505
D) -0.5999
207) cos 27.2ยฐ
A) 0.8894
207) _____
B) 0.5139
C) 0.4571
D) -0.4763
208) cot 70.7ยฐ
A) 2.8555
208) _____
B) 0.9438
C) 0.3502
D) -70.5904
209) tan 47.7ยฐ
A) 0.7396
209) _____
B) 0.6496
C) 1.0990
D) 0.9099
210) csc 75.1ยฐ
A) 0.2571
210) _____
B) 0.9664
C) -0.2938
D) 1.0348
211) tan 459ยฐ
A) -0.1564
211) _____
B) 2.6051
C) -6.3138
D) -1.2349
212) sin 0.1630 212) _____
A) 0.1645
B) 1.0134
C) 0.9867
D) 0.1623
213) sec 0.56
A) 0.5312
213) _____
B) 0.6269
C) 1.1803
D) 0.8473
214) tan 3.95
A) -1.4479
214) _____
B) 1.0471
C) -0.6907
D) -0.7232
Give the amplitude or period as requested.
215) Amplitude of f(x) = 3 sin x 215) _____
A)
B) 2ฯ
C) 3ฯ
D) 3
216) Amplitude of f(x) = -3 sin 5x
A)
B)
C)
D) 3
217) Period of f(x) = sin 5x
A)
B) 1
C) 2ฯ
B) 4
C)
217) _____
D) 5
218) Amplitude of f(x) =
A)
cos 4x
B) 1
C)
B) 4ฯ
C)
219) _____
D) 2ฯ
220) Period of f(x) = 4 cos
A)
x
B)
C) 2ฯ
220) _____
D) 4
221) Period of f(x) = 3 cos x
A) 3
221) _____
D) ฯ
222) Amplitude of f(t) = -2 cos
A) -2
B) 14
C) 9
B)
C) 2
Graph the function.
225) y = 3 cos x
223) _____
D)
224) Period of f(x) = 2 cos(7ฯx + 2)
A) 7ฯ
222) _____
D) 2
223) Period of f(t) = 3 cos
A) 10ฯ B) 10 C) 5
218) _____
D)
219) Period of f(x) = cos 3x
A) 3
216) _____
D)
224) _____
225) _____
A)
B)
C)
D)
226) y = 1.5 sin x
226) _____
A)
B)
C)
D)
227) y =
tan x
227) _____
A)
B)
C)
D)
228) y = cos
228) _____
A)
B)
C)
D)
229) y = -cos(ฯx)
229) _____
A)
B)
C)
D)
230) y =
sin
230) _____
A)
B)
C)
D)
231) y = -2 cos
231) _____
A)
B)
C)
D)
232) y =
sin(x + ฯ)
232) _____
A)
B)
C)
D)
233) y =
tan
233) _____
A)
B)
C)
D)
234) y = 4 sin(x – ฯ) + 4
234) _____
A)
B)
C)
D)
Solve the problem.
235) Sales of snow shovels are seasonal. Suppose the sale of snow shovels in Maine is approximated by
where t is time in months and t = 0 is October. What are the sales in December?
235)
_____
A) 15,000 snow shovels B) 18,660 snow shovels
C) 13,900 snow shovels D) 17,071 snow shovels
236) The temperature in Fairbanks is approximated by
day x, with x = 1 corresponding to Jan 1 and
degree, on day 345.
236) _____
where T(x) is the temperature on
corresponding to Dec 31. Estimate the temperature, to the nearest
A) -32ยฐ B) 338ยฐ C) -25ยฐ D) -7ยฐ
237) A scientist studying ocean tides places an 8 ft high marker in the water at 6 am on a Monday morning. At that time
the water is about 5.5 ft high and receding. The scientist observes that the water reaches its lowest level, 0.1 ft, at 9:18 am
and then begins to rise. Assume that the water level, in feet, is given by
h(t) = 4.9 sin
+ 5,
where t represents the number of hours after midnight. (In other words, the marker was placed in the water when t = 6.)
Find the first time interval during which the marker is completely underwater. 237) _____
A) Approximately from 1:18 am to 4:54 am Tuesday
B) Approximately from 11:24 pm Monday to 2:00 am Tuesday
C) Approximately from 1:42 pm to 5:18 pm Monday
D) Approximately from 2:06 pm to 4:24 pm Monday
238) The voltage E in an electrical circuit is given by E = 7.1 cos(60ฯt), where t is time measured in seconds. Find the
period. 238) _____
A) 30ฯ B) 30
C)
D)
239) The total sales in dollars of some small businesses fluctuates according to the equation
the time in months, with
corresponding to January,
total sales and give the sales in that month.
239) _____
and
where x is
Determine the month with the greatest
A) September; $4300
B) March; $12,700
C) June; $8500 D) December; $12,700
240) The total sales in dollars of some small businesses fluctuates according to the equation
the time in months, with
corresponding to January,
sales and give the sales in that month. 240) _____
A) September; $3900
C) March; $10,500
, and
where x is
Determine the month with the least
B) December; $7200
D) June; $3300
241) The motion of a spring-mass system is described by the equation
where y is the distance in feet
from the equilibrium position and t is time in seconds. If the weight is 23 feet from the ceiling in a state of equilibrium,
find the time at which the weight first passes the equilibrium position. 241) _____
A)
sec
B) 1 sec C) 4 sec D)
sec
242) The motion of a spring-mass system is described by the equation
where y is the distance in feet
from the equilibrium position and t is time in seconds. If the weight is 22 feet from the ceiling in a state of equilibrium,
find the closest the weight will ever be to the ceiling.
242) _____
A) 22 ft B) 24 ft C) 20 ft D) 2 ft
243) The motion of a spring-mass system is described by the equation
where y is the distance in feet
from the equilibrium position and t is time in seconds. If the weight is 22 feet from the ceiling in a state of equilibrium,
find the distance from the ceiling at time t = 3. 243) _____
A) 34 ft B) 30 ft C) 32 ft D) 28 ft
244) The position of a weight attached to a spring is s(t) = -6 cos(12ฯt) inches after t seconds. What is the maximum
height that the weight reaches above the equilibrium position and when does it first reach the maximum height? 244)
_____
A) The maximum height of 12 inches is first reached after 3 seconds.
B) The maximum height of 12 inches is first reached after 6 seconds.
C) The maximum height of 6 inches is first reached after 6 seconds.
D) The maximum height of 6 inches is first reached after 0.08 seconds.
245) The index of refraction for air, Ia, is 1.0003. The index of refraction for water, I w, is 1.3. If
and
find W to the nearest tenth.
245) _____
A) 22.7ยฐ B) 21.7ยฐ C) 20.7ยฐ D) 23.7ยฐ
246) Snell's Law states that
find
A)
.
= 6.32 ร
Use this law to find the requested value. If
246) _____
B)
= 6.32 ร
C)
247) Snell's Law states that
find
A)
B)
find
= 2.1 ร
C)
=3ร
Round your answer to the nearest degree.
B)
find
= 48ยฐ
= 6.08 ร
and
= 31ยฐ
C)
= 32ยฐ
D)
= 49ยฐ
= 2.67 ร
248) _____
= 34ยฐ
Use this law to find the requested value. If
Round your answer to the nearest degree.
B)
D)
Use this law to find the requested value. If
249) Snell's Law states that
A)
D)
247) _____
= 1.98 ร
= 35ยฐ
= 6.85 ร
Use this law to find the requested value. If
248) Snell's Law states that
A)
and
C)
= 46ยฐ
D)
249) _____
= 51ยฐ
250) From a boat on the lake, the angle of elevation to the top of a cliff is 26ยฐ29'. If the base of the cliff is 1429 feet from the
boat, how high is the cliff (to the nearest foot)? 250) _____
A) 715 ft
B) 712 ft
C) 725 ft
D) 722 ft
251) From a boat on the river below a dam, the angle of elevation to the top of the dam is 21ยฐ31'. If the dam is 437 feet
above the level of the river, how far is the boat from the base of the dam (to the nearest foot)?
A) 1078 ft
B) 1088 ft
C) 1108 ft
251) _____
D) 1098 ft
252) From a balloon 878 feet high, the angle of depression to the ranger headquarters is 67ยฐ34'. How far is the
headquarters from a point on the ground directly below the balloon (to the nearest foot)? 252) _____
A) 357 ft
B) 352 ft
C) 362 ft
D) 367 ft
253) When sitting atop a tree and looking down at his pal Joey, the angle of depression of Mack's line of sight is 41ยฐ24'. If
Joey is known to be standing 20 feet from the base of the tree, how tall is the tree (to the nearest foot)?
253) _____
A) 24 ft B) 18 ft C) 20 ft D) 22 ft
254) The air speed of an airplane is 690 km/hr and its angle of climb is 2.07ยฐ. What is its ground speed (to the nearest
km/hr)? 254) _____
A) 675 km/hr
B) 685 km/hr
C) 690 km/hr
D) 680 km/hr
255) At an altitude of 3500 ft, the engine on a small plane fails. What angle of glide is needed to reach an airport runway
that is 4 miles away by land? (Round your answer to the nearest tenth of a degree.)
255) _____
A) 88.9ยฐ B) 89.9ยฐ C) 10.4ยฐ D) 9.4ยฐ
256) The chairlift at a ski resort has a vertical rise of 2400 feet. If the length of the ride is 1.2 miles, what is the average
angle of inclination of the lift (to the nearest tenth of a degree)? 256) _____
A) 22.3ยฐ B) 19.3ยฐ C) 16.3ยฐ D) 25.3ยฐ
257) A 30-foot ladder is leaning against the side of a building. If the ladder makes an angle of
with the side of the
building, how far is the bottom of the ladder from the base of the building? Round your answer to the hundredths place.
257) _____
A) 13.28 ft
B) 3.91 ft
C) 18.98 ft
D) 14.58 ft
258) A contractor needs to know the height of a building to estimate the cost of a job. From a point 89 feet away from the
base of the building, the angle of elevation to the top of the building is found to be
building. Round your answer to the hundredths place. 258) _____
A) 93.78 ft
B) 90.88ft
C) 89.35 ft
D) 95.11 ft
259) A conservation officer needs to know the width of a river in order to set instruments
correctly for a study of pollutants in the river. From point A, the conservation officer
walks 90 feet downstream and sights point B on the opposite bank to determine that
ฮธ = 60ยฐ (see figure). How wide is the river?
Find the height of the
259) _____
A) 52 ft B) 180 ft
C) 156 ft
D) 78 ft
260) A weight attached to a spring is pulled down 3 inches below the equilibrium position. Assuming that the period of
the system is
_____
second, determine a trigonometric model that gives the position of the weight at time t seconds. 260)
A) y = -3 cos 5ฯtB) y = -3 cos 10ฯt
C) y = 3 cos 10ฯt
D) y = 3 cos
t
261) A weight attached to a spring is pulled down 2 inches below the equilibrium position. Assuming that the frequency
of the system is
cycles per second, determine a trigonometric model that gives the position of the weight at time t
seconds.
261) _____
A) y = -2 cos 10t B) y = 2 cos 10t C) y = 2 cos 5t
D) y = -2 cos 5t
262) Tides go up and down in a 14-hour period. The average depth of a certain river is 14 m and ranges from 11 to 17 m.
The depth of the river can be approximated by a sine curve. Write an equation that gives the depth x hours after midnight
given that high tide occurs at 7:00 am. 262) _____
A) d = 3 sin
C) d = 7 sin
+1
B) d = 3 sin
D) d = 3 sin
+ 14
+ 14
1) D
2) C
3) C
4) D
5) A
6) B
7) C
8) D
9) A
10) C
11) C
12) D
13) D
14) D
15) C
16) A
17) B
18) A
19) B
20) B
21) C
22) D
23) B
24) A
25) D
26) B
27) B
28) D
29) B
30) B
31) A
32) C
33) B
34) A
35) C
36) A
37) A
38) D
39) B
40) D
41) D
42) C
43) A
44) A
45) A
46) C
47) D
48) C
49) C
50) B
51) B
52) A
53) C
54) D
55) A
56) C
57) C
58) B
59) B
60) C
61) B
62) D
63) D
64) A
65) C
66) C
67) C
68) B
69) D
70) A
71) D
72) B
73) B
74) D
75) B
76) B
77) B
78) D
79) A
80) B
81) B
82) A
83) D
84) A
85) A
86) B
87) D
88) B
89) D
90) A
91) D
92) D
93) B
94) A
95) C
96) B
97) B
98) A
99) C
100) D
101) A
102) B
103) B
104) A
105) B
106) B
107) C
108) C
109) D
110) C
111) B
112) C
113) D
114) B
115) B
116) A
117) C
118) C
119) B
120) C
121) C
122) A
123) C
124) B
125) A
126) A
127) A
128) A
129) D
130) B
131) D
132) C
133) D
134) D
135) B
136) A
137) C
138) C
139) C
140) D
141) B
142) D
143) B
144) D
145) B
146)
domain: (-โ, โ), range: (-โ, 0)
147)
domain: (-โ, โ), range: (0, โ)
148) The graph is shifted 5 units to the right and 5 units down.
149) The graph is reflected over the y-axis and then shifted 3 units down.
150) C
151) C
152) B
153) B
154) C
155) D
156) C
157) B
158) B
159) B
160) C
161) C
162) D
163) D
164) C
165) C
166) A
167) D
168) D
169) B
170) B
171) A
172) A
173) B
174) A
175) B
176) B
177) B
178) B
179) A
180) B
181) C
182) B
183) D
184) C
185) C
186) D
187) C
188) C
189) C
190) B
191) D
192) C
193) A
194) C
195) A
196) A
197) C
198) A
199) D
200) A
201) D
202) D
203) C
204) D
205) C
206) A
207) A
208) C
209) C
210) D
211) C
212) D
213) C
214) B
215) D
216) D
217) A
218) C
219) C
220) B
221) C
222) D
223) B
224) D
225) A
226) D
227) B
228) D
229) D
230) B
231) D
232) C
233) B
234) C
235) A
236) D
237) C
238) D
239) B
240) A
241) D
242) C
243) B
244) D
245) D
246) B
247) C
248) C
249) A
250) B
251) C
252) C
253) B
254) C
255) D
256) A
257) A
258) B
259) C
260) B
261) A
262) D
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