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Test Bank for Intermediate Algebra 7th Edition by Tobey Chapter 2. Linear Equations and Inequalities Exam Name MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question. Solve. 1) 19 = -21 + a 1) A) a = 40 B) a = -40 C) a = -2 D) a = 2 2) -13 = -15 + y A) y = -2

B) y = 28

C) y = 2

D) y = -28

3) -7x = 28 A) x = 35

B) x = 1

C) x = -4

D) x = -35

4) 5x + 10 = 45 A) x = 7

B) x = 1

C) x = 34

D) x = 30

5) 8x - 8 = 8 A) x = 8 6) 3x - 6 = -1 - 8x A) x=

2)

3)

4)

5) B) x = 2

C) x = 12

D) x = 9 6)

B)

C) x=

x=

D)

x=-

7) 15x - 4 = 12x + 11 A) x = 5

B) x = 8

C) x = 6

D) x = 3

7)

8) 39 + 4x + 3 = 11x A) x = 4

B) x = 7

C) x = 9

D) x = 6

C) y = -37

D) y = 11

8)

9) 8y + 4(4 + y) = 3(y - 7) + 10y B) y = 37 A) y = -11 10) 8x + 3 - 6x - 6 = 10 A)

9)

10) x=


B)

x=

C)

11) -7x + 8 + 5x = -3x + 13 A) x = -8 C) any real number

x= -

D)

x=

11) B) no solution D) x = 5

12) 4(x + 5) = 5(x - 3) A) x = 5

B) x = 35

C)

13) 3x - 6 + 6(x + 1) = 7x + 2 A) x = 2

B) x = - 1

C) x = 7

D) x = 1

14) 4(4x + 1) - 68 = 9x - 1 A) x = -9

B) x = 63

C) x = 441

D) x = 9

15) 6 - 9(y + 3) = 9 - 2y A) y=-

16)

-

+

D) No solution

13)

14)

15) B) y = 0

C)

y=

D)

y=

16) B) k = 2

C) k = 14

D) k = 1 17)

=

A) y = -2

18)

x=-

k = - 10 A) k = -2

17)

12)

B)

y=

C)

y=-

D) y = 102

18)

- 27 = A)

B) x = 15

x=

C)

x=

D)

x=-

Solve the equation. 19) + = A) x = 8

19) B)

x=

C) x = - 8

D)

x=-

Solve. 20)

A) y = 65 21)

20)

(y + 9) - 11 = 3

-

= -9y

B) y = 38

C) y = 47

D) y = 14 21)


A)

22)

2-

B)

y=

23)

+

5+

23) B) x = -12

24) C)

x=

D) x = 0

25) B)

x=-

x=-

C)

x=-

D)

x= 26)

(x - 2) = x + 5 B)

x=-

A)

D) x = 12

=-

(x - 24) -

27)

C) x = -6

B) x = 5

+

A)

D) y = 43

= 14 - (x + 9)

25) A)

C) y = 37

=

A) x = 1

28)

y=

22) B) y = 53

A) x = 6

26)

D)

y=

(y + 5) = -10 A) y = 13

24)

C)

y=-

x=-

C)

x=-

D)

x=27)

= B)

x=

+

x=

C) x = 4

D) x = 16

28)

=2

A) x = 16

B) x = 0

C) x = 1

D)

29) -10.3x + 1.4 = -74.2 - 1.9x A) x = -84

B) x = 7.3

C) x = 9

D) x = 7.5

30) 1.2x + 4.2 = 0.6x - 1.14 A) x = 0.112

B) x = -9.79

C) x = -9

D) x = -8.9

31) 0.6(x - 3) = 24 A) x = 27

B) x = 37

C) x = 43

D) x = 45

32) 0.08 = 0.2x - 9 A) x = 45.4

B) x = 8.88

C) x = 1.816

D) x = -44.6

C) x = 20

D) x = 30

x= 29)

30)

31)

32)

33) 0.30x - 0.20(60 + x) = -0.15(60) A) x = 15 B) x = 40

33)


34) 0.09y + 0.09(900 - y) = 0.50y A) y = 40.5 B) y = 324

C) y = 405

D) y = 162

35) 8 + 0.5(5 - y) = 0.8y - 9(y - 0.7) A) y = 0 B)

C)

D)

y=-

34)

y=-

36) 24x - 4 - 2x = 8x + 7 + 14x A) x = 24 C) no solution

B) x = 11 D) any real number

37) 9x + 11(x + 1) = 20(x + 1) - 9 A) x = 11 C) any real number

B) x = 0 D) no solution

38) 14x - 5(x + 4) = 2 + 9(x + 7) A) x = 13 C) no solution

B) x = 69 D) any real number

39)

-6 +

37)

38)

39)

=x-6+

Solve for y. 40) 3x - 5y = 2 A) y=

B) any real number D) no solution

40) B)

41) 17x + 7y = 10 A) y= x-

B)

42) 3x + 5y = 9x + 7 A) y=

B)

43) 5y + 7x = 8y - 1 A) y=

B)

x=

x=

y=

C)

y=

D) y = 3x - 2

41) y=

C)

y=

D)

y=

42) y=

C) y = 6x + 12

D)

C)

D)

y=

43) y=

y=

y=

44)

y-5 A) y = x + 35

45)

y=-

36)

A) x = -6 C) x=

44)

35)

B) y = x + 5

C) y = 7x + 35

D) y = 7x + 5 45)

y+ A) y = 14x - 49

B)

y=

C)

y=

D)

y=


46)

A)

46)

=3-y B)

y=

Solve for the specified variable. 47) d = rt for t A) t=

48) A = A)

V= A)

t=

B)

b=

D) t = d - r

b=

C)

D)

b=

b= 49)

B)

h=

C) h = S - 2πr

D)

h=

50)

h=V -

B)

π

+

h=

C)

D)

h=

h=

51) B)

h=

C)

h=

-1

D) h = 2π(S - r)

52)

for B) S3 = P + S1 + S2 D) S3 = S1 + P - S2

53)

C + 32 for C A)

C=

54) P = 2L + 2W for W A) W = P - 2L

55)

C) t = dr

π h

+

F=

y=

47) B)

A) S3 = S1 + S2 - P C) S3 = P - S1 - S2 53)

D)

y=

48)

51) S = 2πrh + 2πr2 for h A) h = S - r

52) P =

C)

bh for b

49) S = 2πrh for h A) h = 2πrS

50)

y=

H=

B)

C=

C)

C=

D)

C=

(F - 32) 54)

B)

W=

C) W = P - L

D)

W=

55)

(a + 2b); for b

A) b = 3H - 5a - 10

B)

C)

D)

b=

(F - 32)

b= b=


56) 4(9ax + y) = 7ax - 2y for x A) x=-

Follow the given instructions. 57) (a) Solve for h: V =

56) B)

x=-

x=

D)

x=-

57)

h

(b) Evaluate when V = 121 and b = 11. A) B) (a) h = (a) h = (b) 3 58)

C)

C)

(b) 1

(a) h = (b) 27

D)

(a) h = (b) 9 58)

(a) Solve for a: S = (b) Evaluate when S = 4 and r =

.

A) (a) a = S(1 - r) (b) 2 C)

(a) a =

B)

(a) a =

(b) 8 D) (a) a = S + (1 - r) (b)

(b)

Solve. 59)

60)

The formula for the perimeter of a rectangle is P = 2L + 2W. Solve the formula for L. Use this formula to find the length of the rectangle if the perimeter, P, is 30 feet and the width, W, is 6 feet. A) L = 12 feet B) L = 9 feet C) L = 15 feet D) L = 24 feet

59)

60) The formula for the volume of a cone is V =

Bh. Solve the formula for B. Use this formula to

find the area of the base of the cone if the volume, V, is 14 cubic centimeters and the height, h, is 2 centimeters. A) B = 28 square centimeters B) B = 7 square centimeters C) B = 21 square centimeters D) B = 16 square centimeters 61)

61) The formula for the area of a trapezoid is A =

(b+B)h. Solve the formula for h. Use this

formula to find the height of the trapezoid if the area, A, is 101.5 square meters, and the bases, b and B, are 11 meters and 18 meters. A)

h= meters C) h = 87 meters

62)

B) h = 198 meters D) h = 7 meters 62)

The average price (in dollars) to rent a studio in a certain city can be approximated by the equation where t is the number of years since 1990. Solve this equation for t and use the new equation to determine approximately what year it will be when the average price of a studio in this city reaches $1310.00. A) 2015 B) 2016 C) 2014 D) 2017


63)

Suppose economists use as a model of a country's economy the equation C = 0.6791D + 6.1083 where C represents the consumption of products in billions of dollars and D represents disposable income in billions of dollars. Solve the equation for D and use the result to determine the disposable income D if the consumption C is $9.88 billion. Round your answer to the nearest tenth of a billion. A) $8.4 billion B) $5.6 billion C) $5.3 billion D) $12.8 billion

Solve the absolute value equation. 64) |x| = 6 A) x = 36

64) B) x = -6, 6

C) x = -6

D) x = 6

65) |x - 3| = 8 A) x = -5, 11

B) x = 5, 11

C) x = 11

D) x = -5, -11

66) |2x + 10| = 22 A) x = -6, 16

B) x = -16, 6

C) x = -16

D) x = 6

65)

66)

67) |4x - 9| = 2 A) x= , 68) |5 - 8x| = 3 A) x=69)

67) B)

x=-

,-

C)

x=-

,-

x=

, 68)

,-1

B)

x = 1,

C)

x=

D)

,1

x = - 1, 69)

A) x = -25, 5

B) x = -4

C) x = 5

70) |0.6x - 0.4| = 1 A) x = 0.5, 0.833 C) x = -0.833, -0.5

D) x = -10, -4 70)

B) x = -2.333, 1 D) x = -1, 2.333 71)

=0 A)

x=-

72)

B)

,

x=-

C)

D) no solution

x=-

72)

= -12 A) C)

73)

x=-

B) no solution

,

D)

x=

x=73)

= A)

74)

D)

=3

71)

x=-

63)

,2

B) no solution

C)

x=-

,

D)

x=


74) _ =3 A)

x=

B)

,-

75)

C)

x=

75)

= A)

B) no solution

C)

76) |x + 4| + 4 = 10 A) no solution

B) x = -2, 10

C) x = 2

77) |2x + 8| + 3 = 10 A) no solution

B)

x=-

78) |3x + 7| + 2 = 5 A) x= ,

79)

x =-

D)

,

x=-

,-

76) D) x = -10, 2 77) x=

,

C)

x=-

D)

,-

x=-

,78)

B) no solution

C)

x=-

,-

D)

x=-

,-

79)

- 8= 5 A) x = -61, 43

80)

B) no solution

C) x = 43

D) x = 3, 43 80)

+ 9 = 11 A)

81)

B)

x=

x=-

,

C) no solution

D)

x=-

,

81)

+ 2= 8 A) C)

x=-

,-

x =-

,-

82) |11(x - 2)| - 6 = 5 A) x = 3

83)

D) no solution

x=-

B) no solution D)

x=-

,82)

B) no solution

C) x = 1, 3

D)

x=

83)

-7 =7 A) x = - 20

,3

B) x = 20, - 50

C) x = - 20, 50

D)

x=-


84)

84)

- 9 = -1 A)

B)

x=-

85) |4x + 7| = |x - 3| A) x=,

86)

x=-

x=

D)

,-

x=-

, 85)

B) no solution

C)

x=

D)

,

x=-

,-

86)

= A) x = 16, 12

B) no solution

87) |0.6x + 13| = |x + 0.5| A) x = -8.437, 31.25 C) no solution 88)

C) x = 16, 0

D) x = 10 87)

B) x = -2.571, -1.6 D) x = -7.812, 33.75 88)

= |4x + 7| A)

x=-

B)

,-

C) no solution

D)

89) |1.3x + 2.9| = |x - 5| A) x = -1.043, -11.333 C) no solution 90)

,-

x=-

x=

, 89)

B) x = -1.714, -2.833 D) x = 0.913, -26.333 90)

= A)

91)

C)

x=

, 27

B)

x = 9,

C)

x=

, 27

D)

x= 91)

= A) x = -4, 12

B) x = 4, -12

C) x = -12

D) x = -4

Write an algebraic equation and use it to solve the problem. 92) A promotional deal for long distance phone service charges a $15 basic fee plus $0.05 per minute for all calls. If Joe's phone bill was $72 under this promotional deal, how many minutes of phone calls did he make? Round to the nearest integer, if necessary. A) 3 minutes B) 1140 minutes C) 11 minutes D) 1740 minutes

92)

93) Manuel can pay for his car insurance on a monthly basis, but if he pays an entire year's insurance in advance, he'll receive a $40 discount. His discounted bill for the year would then be $632. What is the monthly fee for his insurance? A) $92.67 B) $56 C) $49.33 D) $52.67

93)

94) A poster in the shape of a triangle has one side that is five inches more the length of the shortest side, and another side that is three inches less than twice the shortest side. Find the dimensions of the poster if its perimeter is 46 inches. A) 11 inches, 16 inches, 20 inches B) 11 inches, 17 inches, 19 inches

94)


C) 11 inches, 16 inches, 19 inches

D) 12 inches, 16 inches, 19 inches

95) The length of a rectangular room is 9 feet longer than twice the width. If the room's perimeter is 174 feet, what are the room's dimensions? A) Width = 31 ft; length = 71 ft B) Width = 26 ft; length = 61 ft C) Width = 39 ft; length = 48 ft D) Width = 52 ft; length = 122 ft

95)

96) Six-eighths of a number is -18. What is the number? A) The number is -24.

96)

C)

The number is -

.

B) D)

The number is -

.

The number is -

.

97) The revenue of Company X quadruples. Then it increases by $1.6 million to its present revenue of $23.6 What was the original revenue? A) The original revenue of Company X was $22 million. B) The original revenue of Company X was $5.5 million. C) The original revenue of Company X was $4.3 million. D) The original revenue of Company X was $6.3 million.

97)

98) Sergio's internet provider charges its customers $11 per month plus 3¢ per minute of on-line usage. Sergio received a bill from the provider covering a period and was charged a total of $68.50. How many minutes did he spend on-line during that period? (Round to the nearest whole minute, if necessary.) A) 45 minutes B) 450 minutes C) 1712 minutes D) 1512 minutes

98)

99) City A experienced 18 armed robberies less than twice that of City B. In the two cities combined, 252 armed robberies occurred. How many armed robberies occurred in City A and in City B? A) City A: 72 armed robberies; City B: 180 armed robberies B) City A: 117 armed robberies; City B: 135 armed robberies C) City A: 138 armed robberies; City B: 78 armed robberies D) City A: 162 armed robberies; City B: 90 armed robberies

99)

100) The Four Flying Feldmans acrobat troupe is planning a nationwide tour. They will give 4 performances per week in various cities across the U.S. The venues in which they will perform hold about 6000 people each, and concert tickets will sell for $25 each. The advance expenses for each performance are $22,000, and the additional travel, lodging, meal, and miscellaneous costs are $36,000 per week. How many weeks will the Four Flying Feldmans need to be on tour if each of them wants to earn $3,808,000 from the tour? A) 12 weeks B) 32 weeks C) 6 weeks D) 8 weeks

100)

101) During a road trip, Tonya drove one-third the distance that Lana drove. Mark drove 9 miles more than Lana. The total distance they drove on the trip was 380 miles. How many miles did each person drive? A) Tonya drove 477 miles, Lana drove 159 miles, and Mark drove 150 miles. B) Tonya drove 50 miles, Lana drove 150 miles, and Mark drove 159 miles. C) Tonya drove 53 miles, Lana drove 159 miles, and Mark drove 168 miles. D) Tonya drove 159 miles, Lana drove 477 miles, and Mark drove 486 miles.

101)

102) A hot air balloon spent several minutes ascending. It then stayed at a level altitude for four times as long as it had ascended. It took 5 minutes less to descend than it did to ascend. The entire trip took one hour and 37 minutes. For how long was the balloon at a level altitude? A) 12 minutes B) 29 minutes C) 68 minutes D) 17 minutes

102)

103) The three most prominent buildings in a city, Washington Center, Lincoln Galleria, and Jefferson

Squa re


Tower, 103) have a total height of 1800 feet. Find the height of each building if Jefferson Square Tower is twice as tall as Lincoln Galleria and Washing ton Center is 360 feet taller than Lincoln Galleria. A) Washington Center: 580 feet Lincoln Galleria: 290 feet Jefferson Square Tower: 930 feet C) Washington Center: 540 feet Lincoln Galleria: 180 feet Jefferson Square Tower: 1080 feet

B) Washington Center: 360 feet Lincoln Galleria: 180 feet Jefferson Square Tower: 1260 feet D) Washington Center: 720 feet Lincoln Galleria: 360 feet Jefferson Square Tower: 720 feet

104) Amy is choosing a cell phone plan. Three different companies offer a different number of free minutes of phone calls per month. City Com offers 280 less than twice the number of free minutes offered by Talk for Less Phone. Renee's Cell Phone offers 80 more free minutes per month than Talk for Less Phone. The sum of the free minutes offered by City Com and Talk for Less Phone is equal to twice the number of free minutes offered by Renee's Cell Phone. How many free minutes does each company offer? A) City Com: 620 B) City Com: 600 minutes minutes Talk for Less Phone: 460 minutes Talk for Less Phone: 440 minutes Renee's Cell Phone: 540 minutes Renee's Cell Phone: 520 minutes C) City Com: 620 D) City Com: 560 minutes minutes Talk for Less Phone: 450 minutes Talk for Less Phone: 420 minutes Renee's Cell Phone: 530 minutes Renee's Cell Phone: 500 minutes Write an algebraic equation and use it to solve the problem. 105) The population of a town is currently 48,000. This represents an increase of 30% from the population 5 years ago. Find the population of the town 5 years ago. Round to the nearest whole number if necessary. A) 14,400 B) 160,000 C) 33,600 D) 36,923 106) After a 16% price reduction, a boat sold for $25,200. What was the boat's price before the reduction? (Round to the nearest cent, if necessary.) A) $30,000 B) $4032.00 C) $29,232.00 D) $157,500.00

104)

105)

106)


107) Inclusive of a 7.8% sales tax, a diamond ring sold for $1832.60. Find the price of the ring before the tax was added. (Round to the nearest cent, if necessary.) A) $1689.66 B) $142.94 C) $1975.54 D) $1700

107)

108) Holly bought a sweater on sale for 20% off the original price. If she saved $6, what was the original price? A) $24.00 B) $30.00 C) $1.20 D) $120.00

108)

109) When Milo got promoted at work, he received a 5% pay raise. He now earns $46,200 per year. What was his annual salary before his raise? A) $2310 B) $46,200 C) $44,000 D) $2200

109)

110) Ming got a 4% raise in her salary from last year. This year she is earning $33,280. How much did she make last year? A) $8320 B) $1280 C) $133,120 D) $32,000

110)

111) Employment statistics show that 23,520 of the residents of Bear Valley were unemployed last month. This was a decrease of 16% from the previous month. How many residents were unemployed in the previous month? A) 28,000 B) 3763 C) 27,283 D) 147,000

111)

112) Suppose that 9% of the teachers at a university attended a conference. If 450 teachers attended the conference, how many teachers are at the university? A) 45 teachers B) 4500 teachers C) 45,000 teachers D) 5000 teachers

112)

Write an algebraic equation for the problem and solve it. 113) City A experienced 27 armed robberies less than twice that of City B. In the two cities combined, 165 armed robberies occurred. How many armed robberies occurred in City A and in City B? A) City A: 65 armed robberies; City B: 46 armed robberies B) City A: 101 armed robberies; City B: 64 armed robberies C) City A: 37 armed robberies; City B: 128 armed robberies D) City A: 69 armed robberies; City B: 96 armed robberies 114) The manager of a pet store received a shipment of birdseed in 15-pound bags. She divided each bag into smaller bags of unequal weight, which she labelled small and large. The store sold 27 small bags of seed and 17 large bags of seed in one month. If a total of 285 pounds of seed were sold that month, how many pounds were in one small bag? In one large bag? A) One small bag contained 2 pounds of seed. One large bag contained 13 pounds of seed. B) One small bag contained 5 pounds of seed. One large bag contained 13 pounds of seed. C) One small bag contained 4 pounds of seed. One large bag contained 15 pounds of seed. D) One small bag contained 3 pounds of seed. One large bag contained 12 pounds of seed. Write an algebraic equation and use it to solve the problem. 115) This year, two Girl Scout Troops together sold 474 boxes of cookies. Half of the Rockridge troop's sales were Thin Mints and

of the Bayshore troop's sales were Thin Mints. Together

they sold 162 boxes of Thin Mints. How many boxes of cookies did each troop sell? A) Rockridge: 237 boxes B) Rockridge: 81 boxes Bayshore: 95 boxes Bayshore: 32 boxes

113)

114)

115)


C) Rockridge: 229 boxes Bayshore: 245 boxes

D) Rockridge: 224 boxes Bayshore: 250 boxes

116) When Sam and Tyler first started working as software engineers, their weekly salaries totaled $1460. Now ten years later Sam is a senior engineer and Tyler is a manager. Sam's salary has doubled. Tyler's salary is 3 times as large. Together their weekly salaries now total $3580. How much did they each make ten years ago? A) Sam earned $800 ten years ago B) Sam earned $1790 ten years ago Tyler earned $660 ten years ago Tyler earned $1193 ten years ago C) Sam earned $780 ten years ago D) Sam earned $730 ten years ago Tyler earned $680 ten years ago Tyler earned $487 ten years ago

116)

117) Nancy invested $1100 at a simple interest rate of 8% for 6 years. How much interest did she earn? A) $528 B) $58,080,000 C) $52,800 D) $580,800

117)

118) Jason borrowed $14,000 at a simple interest rate of 6.8% for a quarter of a year. What was the interest? A) $238.00 B) $14,238.00 C) $23.80 D) $14,023.80

118)

119) Don James wants to invest $50,000 to earn $4650 per year. He can invest in bonds paying per year or in a Certificate of Deposit (CD) paying per year. How much money should be invested in each to realize exactly $4650 in interest per year? A) $34,000 in B-rated bonds and $16,000 in a CD B) $17,000 in B-rated bonds and $33,000 in a CD C) $33,000 in B-rated bonds and $17,000 in a CD D) $16,000 in B-rated bonds and $34,000 in a CD

119)

120) A bank loaned out $60,000, part of it at the rate of per year and the rest at a rate of per year. If the interest received was $5910, how much was loaned at A) $26,000 B) $27,000 C) $33,000 D) $34,000

120)

121) A loan officer at a bank has $92,000 to lend and is required to obtain an average return of per year. If he can lend at the rate of or the rate of how much can he lend at the rate and still meet his required return? A) $18,400.00 B) $5411.76 C) $607,200.00 D) $3172.41

121)

122) A college student earned $7000 during summer vacation working as a waiter in a popular restaurant. The student invested part of the money at and the rest at If the student received a total of $548 in interest at the end of the year, how much was invested at A) $3800 B) $1166 C) $3200 D) $3500

122)

123) The owners of a candy store want to sell, for $6 per pound, a mixture of chocolate-covered raisins, which usually sells for $3 per pound, and chocolate-covered macadamia nuts, which usually sells for $8 per pound. They have a barrel of the raisins. How many pounds of the nuts should they mix with the barrel of raisins so that they hit their target value of $6 per pound for the mixture? A) 48 lbs. B) 42 lbs. C) 39 lbs. D) 45 lbs.

123)

124) A chemist needs 9 liters of a 50% salt solution. All she has available is a 20% salt solution and a 70% salt solution. How much of each of the two solutions should she mix to obtain her desired solution? A) 3.6 liters of the 20% solution; 5.4 liters of the 70% solution B) 4.5 liters of the 20% solution; 4.5 liters of the 70% solution C) 1.8 liters of the 20% solution; 7.2 liters of the 70% solution

124)


D) 2.7 liters of the 20% solution; 6.3 liters of the 70% solution 125) The manager of a coffee shop has one type of coffee that sells for $6 per pound and another type that sells for $10 per pound. The manager wishes to mix 90 pounds of the $10 coffee to get a mixture that will sell for $7 per pound. How many pounds of the $6 coffee should be used? A) 360 pounds B) 180 pounds C) 135 pounds D) 270 pounds

125)

126) A beverage wholesaler wants to create a new punch. He will mix fruit juice worth $2 a gallon and rum worth $7 a gallon. He wants to obtain 125 gallons worth of punch worth $4 a gallon. How much of each beverage should he use? A) He should mix 87.5 gallons of juice with 37.5 gallons of rum. B) He should mix 100 gallons of juice with 25 gallons of rum. C) He should mix 112.5 gallons of juice with 12.5 gallons of rum. D) He should mix 75 gallons of juice with 50 gallons of rum.

126)

127) A chef has one cheese that contains 5% fat and one cheese that contains 55% fat. How many pounds of each cheese should she use in order to obtain 7 pounds of a cheese mixture that is 35% fat? A) 2.1 pounds of the cheese that contains 5% fat and 4.9 pounds of the cheese that contains 55% fat. B) 3.5 pounds of the cheese that contains 5% fat and 3.5 pounds of the cheese that contains 55% fat. C) 1.4 pounds of the cheese that contains 5% fat and 5.6 pounds of the cheese that contains 55% fat. D) 2.8 pounds of the cheese that contains 5% fat and 4.2 pounds of the cheese that contains 55% fat.

127)

128) How much pure acid should be mixed with 8 gallons of a 50% acid solution in order to get an 80% acid solution? A) 4 gal B) 20 gal C) 32 gal D) 12 gal

128)

129) A chemist needs 170 milliliters of a 31% solution but has only 1% and 52% solutions available. Find how many milliliters of each that should be mixed to get the desired solution. A) 70 ml of 1%; 100 ml of 52% B) 90 ml of 1%; 80 ml of 52% C) 100 ml of 1%; 70 ml of 52% D) 80 ml of 1%; 90 ml of 52%

129)

130) Two friends decide to meet in Chicago to attend a Cub's baseball game. Rob travels in the same time that Carl travels Rob's trip uses more interstate highways and he can average more than Carl. What is Rob's average speed? A) 39 mph B) 47 mph C) 40 mph D) 43 mph

130)

131) Carla and Patrick rode stationary bikes for the same amount of time. Carla rode at 6 miles per hour, and Patrick rode at 4.5 miles per hour. If Carla rode 0.75 miles farther than Patrick, how long did they use the bikes? A) They each used the bikes for 0.5 hour. B) They each used the bikes for 0.25 hour. C) They each used the bikes for 0.42 hour. D) They each used the bikes for 0.75 hour.

131)

132) A freight train leaves a station traveling at 32 km/h. Two hours later, a passenger train leaves the same station traveling in the same direction at 52 km/h. How long does it takes the passenger train to catch up to the freight train? A) 3.2 hours B) 2.2 hours C) 4.2 hours D) 5.2 hours

132)

133) Five friends drove at an average rate of 60 miles per hour to a weekend retreat. On the way home, they took the same route but averaged 65 miles per hour. What was the distance between home and the retreat if the round trip took 10 hours? A)5

133)


B)

miles

62 4 mi les

C)

78 00 mi les

D)

31 2 mi les

134) Gary can hike on level ground 3 miles an hour faster than he can on uphill terrain. Yesterday, he hiked 32 miles, spending 2 hours on level ground and 5 hours on uphill terrain. Find his average speed on level ground. B) C) D) A) 6 mph mph mph mph

134)

135) During a hurricane evacuation from the east coast of Georgia, a family traveled west. For part of the trip, they averaged but as the congestion got bad, they had to slow to If the total time of travel was 7 hours, how many miles did they drive at the reduced speed? A) 155 miles B) 150 miles C) 145 miles D) 160 miles

135)

Insert the symbol < or > between the pair of numbers. 136) 8 -5 A) <

B) >

137) - 5 2 A) < 138) -8

137) B) >

-2

138)

A) <

B) >

139) -1.0

0.2

A) < 140)

136)

-3

139) B) > 140)

A) <

B) >

141)

141) A) >

142) -0.6

B) < -0.61

A) < 143)

-

142) B) > 143)

A) <

B) >

A) <

B) >

144)

144)

145)

145) A) < Graph the inequality. 146) x > -3

B) >


146)

A) B) C) D)

147) x < -5

147)

A) B) C) D)

148) x ≥ 2

148)

A) B) C) D)

149) x ≤ -2

A) B) C) D)

150) x > 12

149)


150)

A)

B)

C)

D)

Solve for x and graph the solution. 151) x + 1 < -8

151)

A) x < -9

B) x ≥ -9

C) x ≤ -9

D) x > -9

152) 2x - 3 ≤ 9

152)

A) x ≥ 6

B) x ≤ 6

C) x ≤ -6

D) x ≥ -6

153) -4x + 4 > -5x + 3

A) x > -1

B) x ≥ 7

153)


C) x ≤ 7

D) x < -1

154) 11x - 6 ≤ 10x - 17

154)

A) x ≤ -11

B) x < 11

C) x > 11

D) x ≥ -11

155) -8x - 2 ≥ -9x + 6

155)

A) x ≥ 8

B) x ≤ 8

C) x < -8

D) x > -8

156) 7x + 3 ≤ 11x + 43

156)

A) x ≥ -10

B) x ≤ -10

C) x ≤ 10

D) x ≥ 10

157) 0.6x + 0.3 > 0.8x - 0.7


157)

A) x < -5

B) x > -5

C) x < 5

D) x > 5

Solve for x. 158) x - 4 < 2 A) x > 6

B) x < 6

C) x < -2

D) x > -2

159) 4x + 5 < 17 A) x < 5

B) x < 3

C) x > 3

D) x > 5

160) 8x + 1 > 7x - 4 A) x < -5

B) x > -5

C) x > -3

D) x < -3

161) 4x - 2 ≤ 3x + 2 A) x < 4

B) x ≥ 4

C) x ≥ 0

D) x ≤ 4

162) 8x - 7 - 9(x - 9) < 0 A) x > 74

B) x < 88

C) x > -88

D) x < -74

163)

3x + A)

>

158)

159)

160)

161)

162)

163)

x- 4 B)

x>-

C)

x>-

D)

x<

x< -

164) 24x + 20 > 4(5x + 7) A) x ≤ 2

B) x ≥ 2

C) x < 2

D) x > 2

165) -4(6x - 1) < -28x - 4 A) x ≥ -2

B) x < -2

C) x > -2

D) x ≤ -2

166)

-

(x + 18) A)

167)

9+

164)

165)

B)

x≤

A)

169)

C)

x≤

D)

x≥

x≥

167)

≤ 13 - (x + 4) A) x ≤ 0

168)

166)

(x - 5) ≥ x - 4

B) x ≥ 0

C) x ≥ 8

D) x ≤ 1 168)

< -4x x>

B)

x>-

C)

x<

D)

x< 2(x + 2) +


≤1-

169)

A)

170)

A)

B)

x≤-

x≤

C)

x≤-

D)

x≤170)

> B)

x>

171) 1.3x - 2.7 > 0.5x + 4.98 A) x > 9.61

x>

C)

x<

D)

x< 171)

B) x < -0.104

C) x < 9.696

D) x > 9.6

172) 0.60x - 0.30(30 + x) ≤ 0.50(30) A) x ≤ 70 B) x ≥ 40

C) x ≥ 90

D) x ≤ 80

173) -0.01x + 0.15(2000 - x) > 0.34x B) x > 1500 A) x < 150

C) x > 1800

D) x < 600

172)

173)

174) 0.2(1.9 - x) - 1.8 > 2.1(x - 1.9) (Round to two decimal places if necessary) A) x < 1.35 B) x > 1.35 C) x > 1.12 175)

+1> A) x > - 3

174) D) x < 1.12 175)

x-1 B)

x>-

C) x > 4

D)

x>-

Describe the situation with a linear inequality and then solve the inequality. 176) A certain car has a weight limit for all passengers and cargo of 1219 pounds. The four passengers in the car weigh an average of 165 pounds. Use an inequality to find the weight of the cargo that the car can handle. A) at most 559 pounds B) at most 7 pounds C) at most 609 pounds D) at most 1054 pounds

176)

177) A certain store has a fax machine available for use by its customers. The store charges $2.25 to send the first page and $0.70 for each subsequent page. Use an inequality to find the number of pages that can be faxed for $9.95 A) at most 5 pages B) at most 57 pages C) at most 15 pages D) at most 12 pages

177)

178) An archery set containing a bow and three arrows costs $43. Additional arrows can be purchased for $8 each. Jerry has $99 to spend on the set and additional arrows. Including the arrows in the set, what is the total number of arrows Jerry can purchase? A) at most 2 arrows B) at most 12 arrows C) at most 7 arrows D) at most 10 arrows

178)

179) When making a long distance call from a certain pay phone, the first three minutes of a call cost $2.30. After that, each additional minute or portion of a minute of that call costs $0.50. Use an inequality to find the number of minutes one can call long distance for $4.80. A) at most 8 minutes B) at most 2 minutes C) at most 5 minutes D) at most 10 minutes

179)


180) It takes 15 minutes to set up a candy making machine. Once the machine is set up, it produces 20 candies per minute. Use an inequality to find the number of candies that can be produced in 3 hours if the machine has not yet been set up. A) at most 60 candies B) at most 3300 candies C) at most 2400 candies D) at most 900 candies

180)

181) ABC phone company charges $21 per month plus per minute of phone calls. XYZ phone company charges $15 per month plus 11¢ per minute of phone calls. How many minutes of phone calls should be made each month to make XYZ phone company a better deal? A) more than 200 minutes B) less than 20 minutes C) less than 200 minutes D) more than 20 minutes

181)

182) David has $17,000 to invest. He invests $12,000 in a mutual fund that pays 12% annual simple interest. If he wants to make at least $2200 in yearly interest, at what minimum rate does the remainder of the money need to be invested? A) 14.2% B) 13.2% C) 17.2% D) 15.2%

182)

183) Lauren earns $4 an hour selling encyclopedias door-to-door. She also earns $27 in commission per set of encyclopedias sold. To pay her rent this week, she must earn at least $214, and she only has time to work 13 hours. How many sets of encyclopedias must Lauren sell this week in order to make her rent? A) She would have to sell at least 5 sets of encyclopedias. B) She would have to sell at least 8 sets of encyclopedias. C) She would have to sell at least 7 sets of encyclopedias. D) She would have to sell at least 6 sets of encyclopedias.

183)

184) Every Sunday, Jarod buys a loaf of fresh bread for his family from the corner bakery for $2.00. The local department store has a sale on breadmakers for $61. If the bread-making supplies cost $0.93 per week, for how many weeks would Jarod have to bake a loaf of bread at home before the breadmaker becomes more cost effective? A) at least 59 weeks B) at least 60 weeks C) at least 57 weeks D) at least 58 weeks

184)

Describe the situation with a linear inequality and then solve the inequality. 185) A standard train ticket in a certain city costs per ride. People who use the train also have the option of purchasing a frequent rider pass for each month. With the pass, a ticket costs per ride. Use an inequality to determine the number of train rides in a month for which purchasing the monthly pass is more economical than purchasing the standard train ticket. A) 25 or more times B) 26 or more times C) 24 or more times D) 27 or more times Graph the values of x that satisfy the given conditions. 186) -2 â&#x2030;¤ x â&#x2030;¤ 2

A) B) C) D)

185)

186)


187) -5 < x < -1

187)

A) B) C) D)

188) -1 ≤ x < 3

188)

A) B) C) D)

189) x ≤ 2 and x ≤ -3

189)

A)

B)

C)

D)

190) 0 ≤ x and x < 2

A)

B)

190)


C)

D)

191) -3 ≤ x and x < -1

191)

A)

B)

C)

D)

192)

-

≤ x≤ 5

192)

A) B)

C)

D)

Graph the values of x that satisfy the conditions given. 193) x ≤ 4 or x ≥ 5

A)

B)

193)


C)

D)

194) x > 5 or x < 2

194)

A) B) C) D)

195) x ≤ -7 or x > 4

195)

A)

B)

C)

D)

196)

x≤-

A)

B)

C)

D)

or x ≥ 4

196)


Solve for x and graph the results. 197) 4x + 8 â&#x2030;¤ 32 and x > -5

197)

A)

no solution B)

C)

D)

198) 8x + 9 â&#x2030;Ľ 57 or x + 9 < 0

198)

A)

no solution B)

C)

D)

199) 7x + 8 < -34 or 3x + 9 > 12

A)

B)

C)

no solution

199)


D)

200) x ≤ -8 and x ≥ -3

200)

A)

no solution B)

C)

D)

201) x ≤ 4 and x ≤ -3

201)

A) B) C) D)

202) 6x < 30 and x + 6 > 10

202)

A) B) C) D) no solution 203) 9x < 18 or x + 9 > 6

203)


A) B) C) all real numbers D) no solution 204) -4x < -20 and x + 4 > 2

204)

A) B) C) D) no solution Solve the compound inequality. 205) -6x < -24 and x + 6 > 7 A) x > 4

205) B) x < 1 or x > 4

C) No solution

D) 1 < x < 4

206) x + 6 < 9 and -6x < -30 A) No solution

B) x < 3

C) x < 3 or x > 5

D) 3 < x < 5

207) 12x - 8 < 4x or -2x ≤ -6 A) x < 1 or x ≥ 3

B) 1 ≤ x ≤ 3

C) 1 < x ≤ 3

D) No solution

208) -5x + 1 ≥ 11 or 6x + 3 ≥ -21 A) All real numbers C) x ≥ -2 209) 4x - 8 > -44 and x + 6 < 4 A) -9 < x < -2 C) -9 < x < 10 210) 5x + 6 ≥ 4 and 6x - 5 < 5 A) No solution C)

-

≤x<

211) 6x + 9 < 2 and 8x - 3 > 8 A) x<or x >

206)

207)

208) B) -4 ≤ x < -2 D) -4 ≤ x ≤ -2 209) B) x < -9 or x > -2 D) No solution 210) B)

-

D)

≤ x <0

x≤-

or x > 211)

B) No solution


C)

-

D)

<x<

212) 5x + 5 ≤ 1 or 9x - 3 > 8 A) x≤or x >

-

<x< 212)

B)

C) No solution

D)

x≤-

-

or x >

≤x<

213) 2x - 5 > 5 and 4 - x ≥ -9 A) All real numbers C) x ≥ 13

B) No solution D) 5 < x ≤ 13

214) 8x + 6 ≤ 38 and 3x - 2 ≥ 10 A) x = 4 C) x ≥ 4

B) No solution D) All real numbers

215) -0.2x + 2.4 > 0.6x or 0.4x + 0.9 ≤ 2.9 A) All real numbers C) x ≤ 5

B) x ≥ 5 or x < 3 D) x < 3

216)

+ 2 ≥ 3 and x A)

217) A) C)

218)

216) B) x ≥ 8

C)

-

≤x≤8

D)

x≥

217) B)

<x≤ x<

215)

≤9

D)

or x ≥

> 3 or A)

214)

≤ x≤ 8

< 3 or

213)

x≤ x< 218)

>8

- 15 < x < -

C) x < - 15

B) No solution D)

x>-

or x < - 15

219) 11x - 5 ≥ 9x + 3 and x - 5 ≤ -1 A) All real numbers C) No solution

B) x = 4 D) 4 ≤ x ≤ 5

219)

220) 6x - 9 > 15 or 6 - 3(x - 9) > 3 - 2x A) All real numbers C) No solution

B) x < 4 D) x > 4

220)

Solve the problem. 221) The child-proof cap of a medicine bottle will not function properly if the radius r of the cap is more than 64.4 millimeters or less than 63.9 millimeters. Express this as an inequality.

221)


A) 63.9 ≤ r ≤ 64.4 C) r < 63.9 or r > 64.4

B) 63.9 < r < 64.4 D) r ≤ 63.9 or r ≥ 64.4

222) The daily number of visitors v to an amusement park was always at least 837 but never more than 1213. Express this as an inequality. A) 837 ≤ v ≤ 1213 B) v ≤ 837 or v ≥ 1213 C) 837 < v < 1213 D) v < 837 or v > 1213

222)

223) The formula C = 0.5x + 19 represents the estimated future cost of yearly attendance at State University, where C is the cost in thousands of dollars x years after 2002. Use a compound inequality to determine when the attendance costs will range from 24 to 26 thousand dollars. A) From 2011 to 2015 B) From 2013 to 2017 C) From 2012 to 2016 D) From 2013 to 2015

223)

224) The formula for converting Fahrenheit temperatures to Celsius temperatures is

224)

Use this formula to solve the problem. In a certain city, the average temperature ranges from to Celsius. Find an inequality that represents the range of Fahrenheit temperatures. If necessary, round to the nearest tenth of a degree. A) 6.8° ≤ F ≤ 89.6° B) 24.2° ≤ F ≤ 49.8° C) -57.2° ≤ F ≤ 25.6° D) -25.2° ≤ F ≤ 57.6° 225) Cindy has scores of 72, 81, 84, and 90 on her biology tests. Use a compound inequality to find the range of scores she can make on her final exam to receive a C in the course. The final exam counts as two tests, and a C is received if the course average is between 70 and 79. A) 11.5 ≤ final score ≤ 34 B) 70 ≤ final score ≤ 79 C) 93 ≤ final score ≤ 147 D) 46.5 ≤ final score ≤ 73.5

225)

226) At one point the exchange equation for converting American dollars into Japanese yen was Y = 129(d - 4) where d is the number of American dollars, Y is the number of yen, and $4 is a one-time bank fee charged for currency conversions. Use this equation to solve the following problem. Ariel is traveling to Japan for 3 weeks and has been advised to have between 19,000 and 30,000 yen for spending money for each week he is there. Write an inequality that represents the number of American dollars he will need to bring to the bank to exchange money for this 3-week period. A) $441.89 ≤ d ≤ $697.71 B) $441.95 ≤ d ≤ $697.77 C) $453.86 ≤ d ≤ $709.67 D) $445.86 ≤ d ≤ $701.67

226)

Solve and graph the solutions. 227) <3

A)

B)

C)

D)

227)


228)

≤ 4

228)

A)

B)

C)

D)

229) |x + 13| < 9 A)

229)

B)

C)

D)

230) |x + 1.5| ≤ 3

A)

B)

C)

D)

230)


231) |7x - 9| ≤ 6

231)

A)

B)

C)

D)

Solve for x. 232) |x + 7| < 2 A) -9 < x < -5 233) |4x - 12 | ≤ 16 A) x ≤ - 1 or x ≥ 7

232) B) x < -5

C) x < -9

D) 5 < x < 9

B) - 1 ≤ x ≤ 7

C) -7 ≤ x ≤ 1

D) x ≤ -7 or x ≥ 1

233)

234) |2x + 5| ≤ 2 A) <x<C)

x≤-

234) B) D)

or x ≥ -

-

≤x≤-

x≤-

235) |6 - 2x| ≤ 14 A) x ≤ -10 or x ≥ 4 C) -10 ≤ x ≤ 4

B) x ≤ - 4 or x ≥ 10 D) - 4 ≤ x ≤ 10

236) |0.7x - 0.8| ≤ 3 A) 0.714 ≤ x ≤ 1.571 C) -1.571 ≤ x ≤ -0.714

B) -5.429 ≤ x ≤ 3.143 D) -3.143 ≤ x ≤ 5.429

237)

≤6 A) -17 ≤ x ≤ 17

238)

235)

236)

237) B) x ≥ -13

C) -13 ≤ x ≤ 17

238)

≤ A) C)

239)

x≤-

or x ≥ -

≤x≤

B) D)

x≤ -

or x ≥ ≤x≤239)

< 10 A)

D) -17 ≤ x ≤ 13

<x<

B) x < -60 or x > 40


C) -60 < x < 40

240)

D)

x<

or x > 240)

≤1 A)

x≤

or x ≥

C)

x≤

D)

≤x≤

241)

B)

or x ≥ ≤x≤ 241)

<9 A) C)

x<-

<x< or x >

Solve and graph the solutions. 242) ≥5

B) D)

x<-

or x > <x<

242)

A)

B)

C)

D)

243)

>8

A)

B)

C)

D)

243)


244) |x + 2| > 14 A)

244)

B)

C)

D)

245) |3x - 2| ≥ 6

245)

A)

B)

C)

D)

Solve for x. 246) |x + 4| ≥ 6 A) x ≤ -2 or x ≥ 10 C) x ≤ -10 or x ≥ 2 247) |2x - 8 | > 14 A) x < -11 or x > 3 C) -11 < x < 3

246) B) -10 ≤ x ≤ 2 D) -2 ≤ x ≤ 10 247) B) - 3 < x < 11 D) x < - 3 or x > 11

248) |8x - 6| ≥ 5 A) ≤x≤

B)

C)

D)

x≤

or x ≥

249) |10 - 5x| > 25 A) x < - 3 or x > 7 C) -7 < x < 3

248) x≥ x≤

or x > 249)

B) x < -7 or x > 3 D) - 3 < x < 7


250) |0.2x - 0.4| ≥ 3 A) -17 ≤ x ≤ 13 C) x ≤ -13 or x ≥ 17 251)

250) B) x ≤ -17 or x ≥ 13 D) -13 ≤ x ≤ 17 251)

>6 A) x < -17 or x > 13 C) -17 < x < 13

252)

B) x < -13 or x > 17 D) -13 < x < 17 252)

≥ A) x ≤ 6 or x ≥ 10 C) x ≤ -10 or x ≥ -6

253)

B) 6 ≤ x ≤ 10 D) -10 ≤ x ≤ -6 253)

>4 A) x > 12 or x < 4

B)

C)

D) 4 < x < 12

x>

254)

or x <

<x<

254)

≥8 A) C)

x≤x≤

255)

B)

or x ≥

-

D)

or x ≥

≤ x≤ ≤ x≤

255)

>9 A) C)

x<-

B)

or x >

D)

<x<

-

x<-

<x< or x >

Solve. 256) The length ℓ of a metal rod used in manufacturing cars must not differ from the standard s by more than 0.4 inches. The manufacturing engineers express this as Find the limits of ℓ if the standard s is 24.6. A) ℓ ≤ 25 or ℓ ≥ 25.4 B) 25 ≤ ℓ ≤ 25.4 C) ℓ ≤ 24.2 or ℓ ≥ 25 D) 24.2 ≤ ℓ ≤ 25

256)

257) The radius r of a plastic tube used in manufacturing a child's toy must not differ from the standard s by more than 3 millimeters. The manufacturing engineers express this as Find the limits of r if the standard s is 36. A) 33 ≤ r ≤ 39 B) r ≤ 30 or r ≥ 33 C) r ≤ 33 or r ≥ 39 D) 30 ≤ r ≤ 33

257)

258) 9x - 2 = 3 + 3x A) x=-

258) B)

x=

C)

x=

D) x = 12


259) 4(7 - 2x) = 10 - 3(x - 4) A) x=

260)

262) Solve for n. A) n= C)

x=

C)

A)

C) x = -2.1

B) x = -2.09

D) x = 0.476 262)

D)

A=

C)

b=

h=

; 12 cm

h=

; 36 cm

D)

b=

h for h, then evaluate h when V = 400

b= 264)

and b = 10 cm. B) D)

h=

; 108 cm

h=

; 4 cm

265)

p + 6s B)

p=

266) |6x + 2| = 7 A) x= ,-

n=

263) B)

Q=

n=

bh

C) 12Q - 72s + 1

267)

x= 261)

B)

b=

Solve for p.

D)

x=

M = a + c(n - 6)

Solve V = A)

C)

x=

n=

Solve for b. A)

265)

x=-

D) x = - 22

260) B)

x=

261) 1.1x + 3.5 = 0.6x + 2.45 A) x = -2.079

264)

C)

(-x + 4) + 8 = 2(3x - 5) A)

263)

259) B)

D)

p= p= 266)

B)

x=-

C) No solution

,

D)

x=

,-

267)

+ 5 = 12 A)

x=-

,

B)

x=-

,

C)

x = - 4,

D) No solution


Use an algebraic equation to find a solution. 268) A triangle has a perimeter of 46 meters. The length of the second side is 5 meters more the length of the first side. The third side is 3 meters less than twice the first side. How long is each side? A) 1st side = 11 m, B) 1st side = 11 m, 2nd side = 16 m, 2nd side = 16 m, 3rd side = 20 m 3rd side = 19 m C) 1st side = 12 m, D) 1st side = 11 m, 2nd side = 16 m, 2nd side = 17 m, 3rd side = 19 m 3rd side = 19 m

268)

269) Employment statistics show that 24,070 of the residents of Bear Valley were unemployed last month. This was a decrease of 17% from the previous month. How many residents were unemployed in the previous month? A) 4092 B) 29,000 C) 141,588 D) 28,162

269)

270) A chemist needs 60 milliliters of a 23% solution but has only 19% and 31% solutions available. How many milliliters of each should be mixed to get the desired solution? A) 50 ml of 19%; 10 ml of 31% B) 20 ml of 19%; 40 ml of 31% C) 10 ml of 19%; 50 ml of 31% D) 40 ml of 19%; 20 ml of 31%

270)

271) A college student earned $7200 during summer vacation working as a waiter in a popular restaurant. Part was invested at simple interest and the remainder at simple interest. At the end of one year, the student had earned $464 interest. How much was invested at A) $3600 B) $4000 C) $1200 D) $3200

271)

Solve and graph. 272) 13x + 6 > 12x - 2

272)

A) x ≥ 4

B) x ≤ 4

C) x > -8

D) x < -8

273)

-

+

A)

(2 - 4x) ≥

x≤-

C) x ≥ - 3

273)

x+

B)

x≤-


D) x ≥ -

Find the values of x that satisfy the given conditions. 274) 7 ≤ 5x - 3 ≤ 27 A) -6 ≤ x ≤ -2 B) -6 < x < -2

274) C) 2 ≤ x ≤ 6

275) 9x - 8 ≤ 28 or -x + 9 < -8 A) x ≤ 4 or x > 17

B)

C) 4 ≤ x < 17

D)

Solve the absolute value inequality. 276) |4x - 8 | ≤ 12 A) -5 ≤ x ≤ 1 B) x ≤ -5 or x ≥ 1 277) |7x + 7| ≥ 6 A) x≥C)

-

≤x≤-

D) 2 < x < 6 275)

≤ x < 17 or x > 17

x≤

276) C) x ≤ - 1 or x ≥ 5

D) - 1 ≤ x ≤ 5 277)

B)

D)

x≤-

-

or x ≥-

<x<-


1) A 2) C 3) C 4) A 5) B 6) C 7) A 8) D 9) B 10) D 11) D 12) B 13) D 14) D 15) A 16) C 17) C 18) A 19) A 20) C 21) C 22) D 23) C 24) D 25) C 26) D 27) C 28) C 29) C 30) D 31) C 32) A 33) D 34) D 35) A 36) C 37) C 38) C 39) B 40) C 41) D 42) A 43) D 44) C 45) C 46) D 47) B 48) A 49) D 50) D 51) B 52) C 53) C 54) D 55) C 56) D


57) A 58) A 59) B 60) C 61) D 62) C 63) B 64) B 65) A 66) B 67) A 68) C 69) A 70) D 71) B 72) B 73) C 74) A 75) D 76) D 77) D 78) B 79) A 80) D 81) C 82) C 83) C 84) D 85) D 86) C 87) A 88) B 89) D 90) C 91) A 92) B 93) B 94) C 95) B 96) A 97) B 98) B 99) D 100) B 101) C 102) C 103) D 104) B 105) D 106) A 107) D 108) B 109) C 110) D 111) A 112) D 113) B


114) 115) 116) 117) 118) 119) 120) 121) 122) 123) 124) 125) 126) 127) 128) 129) 130) 131) 132) 133) 134) 135) 136) 137) 138) 139) 140) 141) 142) 143) 144) 145) 146) 147) 148) 149) 150) 151) 152) 153) 154) 155) 156) 157) 158) 159) 160) 161) 162) 163) 164) 165) 166) 167) 168) 169) 170)

D D A A A C C A C D A D D D D A D A A D A B B A A A B B B A A A B D B D A A B A A A A C B B B D A B D B A A C C B


171) D 172) D 173) D 174) D 175) A 176) A 177) D 178) D 179) A 180) B 181) C 182) D 183) D 184) D 185) B 186) D 187) C 188) A 189) A 190) B 191) A 192) A 193) A 194) B 195) A 196) C 197) C 198) C 199) D 200) A 201) C 202) A 203) C 204) B 205) A 206) A 207) A 208) A 209) A 210) C 211) B 212) B 213) D 214) A 215) C 216) B 217) B 218) D 219) B 220) A 221) C 222) A 223) C 224) A 225) D 226) D 227) D


228) 229) 230) 231) 232) 233) 234) 235) 236) 237) 238) 239) 240) 241) 242) 243) 244) 245) 246) 247) 248) 249) 250) 251) 252) 253) 254) 255) 256) 257) 258) 259) 260) 261) 262) 263) 264) 265) 266) 267) 268) 269) 270) 271) 272) 273) 274) 275) 276) 277)

C A B D A B B D D C D C D A A B C C C D C A C B C C A D D A C A D C B B A A A A B B D D C A C A D B

Profile for cndps639

Intermediate Algebra 7th Edition Tobey Slater Blair Crawford Test Bank  

link full download https://bit.ly/2GenGMi Language: English ISBN-10: 0321769503 ISBN-13: 978-0321769503 ISBN-13: 9780321769503 Author: Joh...

Intermediate Algebra 7th Edition Tobey Slater Blair Crawford Test Bank  

link full download https://bit.ly/2GenGMi Language: English ISBN-10: 0321769503 ISBN-13: 978-0321769503 ISBN-13: 9780321769503 Author: Joh...

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