7.3E: Exercises
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Practice Makes Perfect
Simplify Expressions Using the Properties for Exponents
In the following exercises, simplify each expression using the properties for exponents.
1. ⓐ \(d^3·d^6\) ⓑ \(4^{5x}·4^{9x}\) ⓒ \(2y·4y^3\) ⓓ \(w·w^2·w^3\)
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ⓐ \(d^9\) ⓑ \(4^{14x}\) ⓒ \(8y^4\) ⓓ \(w^6\)
2. ⓐ \(x^4·x^2\) ⓑ \(8^{9x}·8^3\) ⓒ \(3z^{25}·5z^8\) ⓓ \(y·y^3·y^5\)
3. ⓐ \(n^{19}·n^{12}\) ⓑ \(3^x·3^6\) ⓒ \(7w^5·8w\) ⓓ \(a^4·a^3·a^9\)
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ⓐ \(n^{31}\) ⓑ \(3^{x+6}\) ⓒ \(56w^6\)
ⓓ \(a^{16}\)
4. ⓐ \(q^{27}·q^{15}\) ⓑ \(5^x·5^{4x}\) ⓒ \(9u^{41}·7u^{53}\)
ⓓ \(c^5·c^{11}·c^2\)
5. \(m^x·m^3\)
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\(m^{x+3}\)
6. \(n^y·n^2\)
7. \(y^a·y^b\)
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\(y^{a+b}\)
8. \(x^p·x^q\)
9. ⓐ \(\dfrac{x^{18}}{x^3}\) ⓑ \(\dfrac{5^{12}}{5^3}\) ⓒ \(\dfrac{q^{18}}{q^{36}}\) ⓓ \(\dfrac{10^2}{10^3}\)
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ⓐ \(x^{15}\) ⓑ \(5^9\) ⓒ \(\dfrac{1}{q^{18}}\) ⓓ \(\dfrac{1}{10}\)
10. ⓐ \(\dfrac{y^{20}}{y^{10}}\) ⓑ \(\dfrac{7^{16}}{7^2}\) ⓒ \(\dfrac{t^{10}}{t^{40}}\) ⓓ \(\dfrac{8^3}{8^5}\)
11. ⓐ \(\dfrac{p^{21}}{p^7}\) ⓑ \(\dfrac{4^{16}}{4^4}\) ⓒ \(\dfrac{b}{b^9}\) ⓓ \(\dfrac{4}{4^6}\)
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ⓐ \(p^{14}\) ⓑ \(4^{12}\) ⓒ \(\dfrac{1}{b^8}\) ⓓ \(\dfrac{1}{4^5}\)
12. ⓐ \(\dfrac{u^{24}}{u^3}\) ⓑ \(\dfrac{9^{15}}{9^5}\) ⓒ \(\dfrac{x}{x^7}\) ⓓ \(\dfrac{10}{10^3}\)
13. ⓐ \(20^0\) ⓑ \(b^0\)
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ⓐ 1 ⓑ 1
14. ⓐ \(13^0\) ⓑ \(k^0\)
15. ⓐ \(−27^0\) ⓑ \(−(27^0)\)
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ⓐ \(−1\) ⓑ \(−1\)
16. ⓐ \(−15^0\) ⓑ \(−(15^0)\)
Use the Definition of a Negative Exponent
In the following exercises, simplify each expression.
17. ⓐ \(a^{−2}\) ⓑ \(10^{−3}\) ⓒ \(\dfrac{1}{c^{−5}}\) ⓓ \(\dfrac{1}{3^{−2}}\)
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ⓐ \(\dfrac{1}{a^{2}}\) ⓑ \(\dfrac{1}{1000}\) ⓒ \(c^{5}\) ⓓ \(9\)
18. ⓐ \(b^{−4}\) ⓑ \(10^{−2}\) ⓒ \(\dfrac{1}{c^{−5}}\) ⓓ \(\dfrac{1}{5^{−2}}\)
19. ⓐ \(r^{−3}\) ⓑ \(10^{−5}\) ⓒ \(\dfrac{1}{q^{−10}}\) ⓓ \(\dfrac{1}{10^{−3}}\)
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ⓐ \(\dfrac{1}{r3}\) ⓑ \(\dfrac{1}{100,000}\) ⓒ \(q^{10}\) ⓓ \(1,000\)
20. ⓐ \(s^{−8}\) ⓑ \(10^{−2}\) ⓒ \(\dfrac{1}{t^{−9}}\) ⓓ \(\dfrac{1}{10^{−4}}\)
21. ⓐ \(\left(\dfrac{5}{8}\right)^{-2}\) ⓑ \(\left(−\dfrac{b}{a}\right)^{−2}\)
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ⓐ \(\dfrac{64}{25}\) ⓑ \(\dfrac{a^{2}}{b^{2}}\)
22. ⓐ \(\left(\dfrac{3}{10}\right)^{−2}\) ⓑ \(\left(−\dfrac{2}{z}\right)^{−3}\)
23. ⓐ \(\left(\dfrac{4}{9}\right)^{−3}\) ⓑ \(\left(−\dfrac{u}{v}\right)^{−5}\)
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ⓐ \(\dfrac{729}{64}\) ⓑ \(−\dfrac{v^{5}}{u^{5}}\)
24. ⓐ \(\left(\dfrac{7}{2}\right)^{−3}\) ⓑ \(\left(−\dfrac{3}{x}\right)^{−3}\)
25. ⓐ \((−5)^{−2}\) ⓑ \(−5^{−2}\) ⓒ \(\left(−\dfrac{1}{5}\right)^{−2}\) ⓓ \(−\left(\dfrac{1}{5}\right)^{−2}\)
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ⓐ \(\dfrac{1}{25}\) ⓑ \(−\dfrac{1}{25}\) ⓒ \(25\) ⓓ \(−25\)
26. ⓐ \(−5^{−3}\) ⓑ \(\left(−\dfrac{1}{5}\right)^{−3}\) ⓒ \(−\left(\dfrac{1}{5}\right)^{−3}\) ⓓ \((−5)^{−3}\)
27. ⓐ \(3·5^{−1}\) ⓑ \((3·5)^{−1}\)
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ⓐ \(\dfrac{3}{5}\) ⓑ \(\dfrac{1}{15}\)
28. ⓐ \(3·4^{−2}\) ⓑ \((3·4)^{−2}\)
In the following exercises, simplify each expression using the Product Property.
29. ⓐ \(b^{4}b^{−8}\) ⓑ \((w^{4}x^{−5})(w^{−2}x^{−4})\)) ⓒ \((−6c^{−3}d^9)(2c^4d^{−5})\)
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ⓐ \(\dfrac{1}{b^{4}}\) ⓑ \(\dfrac{w^{2}}{x^{9}}\) ⓒ \(−12cd^{4}\)
30. ⓐ \(s^{3}·s^{−7}\) ⓑ \((m^{3}n^{−3})(m^{5}n^{−1})\)
ⓒ \((−2j^{−5}k^{8})(7j^{2}k^{−3})\)
31. ⓐ \(a^{3}·a^{−3}\) ⓑ \((uv^{−2})(u^{−5}v^{−3})\)
ⓒ \((−4r^{−2}s^{−8})(9r^{4}s^{3})\)
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ⓐ \(1\) ⓑ \(\dfrac{1}{u^{4}v^{5}}\) ⓒ \(−36\dfrac{r^{2}}{j^{5}}\)
32. ⓐ \(y^{5}·y^{−5}\) ⓑ \((pq^{−4})(p^{−6}q^{−3})\)
ⓒ \((−5m^{4}n^{6})(8m^{−5}n^{−3})\)
33. \(p^{5}·p^{−2}·p^{−4}\)
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\(\dfrac{1}{p}\)
34. \(x^{4}·x^{−2}·x^{−3}\)
In the following exercises, simplify each expression using the Power Property.
35. ⓐ \((m^4)^2\) ⓑ \((10^3)^6\) ⓒ \((x^3)^{−4}\)
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ⓐ \(m^{8}\) ⓑ \(10^{18}\) ⓒ \(\dfrac{1}{x^{12}}\)
36. ⓐ \((b^{2})^{7}\) ⓑ \((3^8)^2\) ⓒ \((k^2)^{−5}\)
37. ⓐ \((y^3)^x\) ⓑ \((5^x)^x\) ⓒ \((q^6)^{−8}\)
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ⓐ \(y^{3x}\) ⓑ \(5^{xy}\) ⓒ \(\dfrac{1}{q^{48}}\)
38. ⓐ \((x^2)^y\) ⓑ \((7^a)^b\) ⓒ \((a^9)^{−10}\)
In the following exercises, simplify each expression using the Product to a Power Property.
39. ⓐ \((−3xy)^2\) ⓑ \((6a)^0\) ⓒ \((5x^2)^{−2}\) ⓓ \((−4y^{−3})^2\)
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ⓐ \(9x^2y^2\) ⓑ 1 ⓒ \(\dfrac{1}{25x^4}\) ⓓ \(\dfrac{16}{y^6}\)
40. ⓐ \((−4ab)^2\) ⓑ \((5x)^0\) ⓒ \((4y^3)^{−3}\) ⓓ \((−7y^{−3})^2\)
41. ⓐ \((−5ab)^3\) ⓑ \((−4pq)^0\) ⓒ \((−6x^3)^{−2}\) ⓓ \((3y^{−4})^2\)
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ⓐ \(−125a^3b^3\) ⓑ 1 ⓒ \(\dfrac{1}{36x^6}\) ⓓ \(\dfrac{9}{y^8}\)
42. ⓐ \((−3xyz)^4\) ⓑ \((−7mn)^0\) ⓒ \((−3x^3)^{−2}\)
ⓓ \((2y^{−5})^2\)
In the following exercises, simplify each expression using the Quotient to a Power Property.
43. ⓐ \((p^2)^5\) ⓑ \(\left(\dfrac{x}{y}\right)^{−6}\) ⓒ \(\left(\dfrac{2xy^2}{z}\right)^3\) ⓓ \(\left(\dfrac{4p^{−3}}{q^2}\right)^2\)
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ⓐ \(\dfrac{p^5}{32}\) ⓑ \(\dfrac{y^6}{x^6}\) ⓒ \(\dfrac{8x^3y^6}{z^3}\)
ⓓ \(\dfrac{16}{p^6q^4}\)
44. ⓐ \(\left(\dfrac{x}{3}\right)^4\) ⓑ \(\left(\dfrac{a}{b}\right)^{−5}\) ⓒ \(\left(\dfrac{2xy^2}{z}\right)^3\) ⓓ \(\left(\dfrac{x^3y}{z^4}\right)^2\)
45. ⓐ \(\left(\dfrac{a}{3b}\right)^4\) ⓑ \(\left(\dfrac{5}{4m}\right)^{−2}\) ⓒ \(\left(\dfrac{3a^{−2}b^3}{c^3}\right)^{−2}\) ⓓ \(\left(\dfrac{p^{−1}q^4}{r^{−4}}\right)^2\)
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ⓐ \(\dfrac{a^4}{81b^4}\) ⓑ \(\dfrac{16m^2}{25}\) ⓒ \(\dfrac{a^4c^4}{9b^6}\) ⓓ \(\dfrac{q^8r^8}{p^2}\)
46. ⓐ \(\left(\dfrac{x^2}{y}\right)^3\) ⓑ \(\left(\dfrac{10}{3q}\right)^{−4}\) ⓒ \(\left(\dfrac{2x^3y^4}{3z^2}\right)^5\) ⓓ \(\left(\dfrac{5a^3b^{−1}}{2c^4}\right)^{−3}\)
In the following exercises, simplify each expression by applying several properties.
47. ⓐ \((5t^2)^3(3t)^2\) ⓑ \(\dfrac{(t^2)^5(t^{−4})^2}{(t^3)^7}\) ⓒ \(\left(\dfrac{2xy^2}{x^3y^{−2}}\right)^2\left(\dfrac{12xy^3}{x^3y^{−1}}\right)^{−1}\)
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ⓐ \(1125t^8\) ⓑ \(\dfrac{1}{t^{19}}\) ⓒ \(\dfrac{y^4}{3x^2}\)
48. ⓐ \((10k^4)^3(5k^6)^2\) ⓑ \(\dfrac{(q^3)^6(q^{−2})^3}{(q^4)^8}\)
49. ⓐ \((m^2n)^2(2mn^5)^4\) ⓑ \(\dfrac{(−2p^{−2})^4(3p^4)^2}{(−6p^3)^2}\)
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ⓐ \(16m^8n^{22}\) ⓑ \(\dfrac{4}{p^6}\)
50. ⓐ \((3pq^4)^2(6p^6q)^2\) ⓑ \(\dfrac{(−2k^{−3})^2(6k^2)^4}{(9k^4)^2}\)
Mixed Practice
In the following exercises, simplify each expression.
51. ⓐ \(7n^{−1}\) ⓑ \((7n)^{−1}\) ⓒ \((−7n)^{−1}\)
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ⓐ \(\dfrac{7}{n}\) ⓑ \(\dfrac{1}{7n}\) ⓒ \(−\dfrac{1}{7n}\)
52. ⓐ \(6r^{−1}\) ⓑ \((6r)^{−1}\) ⓒ \((−6r)^{−1}\)
53. ⓐ \((3p)^{−2}\) ⓑ \(3p^{−2}\) ⓒ \(−3p^{−2}\)
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ⓐ \(\dfrac{1}{9p^2}\) ⓑ \(\dfrac{3}{p^2}\) ⓒ \(−\dfrac{3}{p^2}\)
54. ⓐ \((2q)^{−4}\) ⓑ \(2q^{−4}\) ⓒ \(−2q^{−4}\)
55. \((x^2)^4·(x^3)^2\)
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\(x^{14}\)
56. \((y^4)^3·(y^5)^2\)
57. \((a^2)^6·(a^3)^8\)
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\(a^{30}\)
58. \((b^7)^5·(b^2)^6\)
59. \((2m^6)^3\)
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\(2m^{18}\)
60. \((3y^2)^4\)
61. \((10x^2y)^3\)
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\(1,000x^6y^3\)
62. \((2mn^4)^5\)
63. \((−2a^3b^2)^4\)
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\(16a^{12}b^8\)
64. \((−10u^2v^4)^3\)
65. \(\left(\dfrac{2}{3}x^2y\right)^3\)
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\(\dfrac{8}{27}x^6y^3\)
66. \(\left(\dfrac{7}{9}pq^4\right)^2\)
67. \((8a^3)^2(2a)^4\)
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\(1,024a^{10}\)
68. \((5r^2)^3(3r)^2\)
69. \((10p^4)^3(5p^6)^2\)
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\(25,000p^{24}\)
70. \((4x^3)^3(2x^5)^4\)
71. \(\left(\dfrac{1}{2}x^2y^3\right)^4\left(4x^5y^3\right)^2\)
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\(x^{18}y^{18}\)
72. \(\left(\dfrac{1}{3}m^3n^2\right)^4\left(9m^8n^3\right)^2\)
73. \((3m^2n)^2(2mn^5)^4\)
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\(144m^8n^{22}\)
74. \((2pq^4)^3(5p^6q)^2\)
75. ⓐ \((3x)^2(5x)\) ⓑ \((2y)^3(6y)\)
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ⓐ \(45x^3\) ⓑ \(48y^4\)
76. ⓐ \(\left(\dfrac{1}{2}y^2\right)^3\left(\dfrac{2}{3}y\right)^2\) ⓑ \(\left(\dfrac{1}{2}j^2\right)^5\left(\dfrac{2}{5}j^3\right)^2\)
77. ⓐ \((2r^{−2})^3(4^{−1}r)^2\) ⓑ \((3x^{−3})^3(3^{−1}x^5)^4\)
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ⓐ \(12r^4\) ⓑ \(13x^{11}\)
78. \(\left(\dfrac{k^{−2}k^8}{k^3}\right)^2\)
79. \(\left(\dfrac{j^{−2}j^5}{j^4}\right)^3\)
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\(\dfrac{1}{j^3}\)
80. \(\dfrac{(−4m^{−3})^2(5m^4)^3}{(−10m^6)^3}\)
81. \(\dfrac{(−10n^{−2})^3(4n^5)^2}{(2n^8)^2}\)
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\(−\dfrac{4000}{n^{12}}\)
Use Scientific Notation
In the following exercises, write each number in scientific notation.
82. ⓐ 57,000 ⓑ 0.026
83. ⓐ 340,000 ⓑ 0.041
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ⓐ \(34\times10^4\) ⓑ \(41\times10^{−3}\)
84. ⓐ 8,750,000 ⓑ 0.00000871
85. ⓐ 1,290,000 ⓑ 0.00000103
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ⓐ \(1.29\times10^6\)
ⓑ \(103\times10^{−8}\)
In the following exercises, convert each number to decimal form.
86. ⓐ \(5.2\times10^2\) ⓑ \(2.5\times10^{−2}\)
87. ⓐ \(−8.3\times10^2\) ⓑ \(3.8\times10^{−2}\)
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ⓐ \(−830\) ⓑ 0.038
88. ⓐ \(7.5\times10^6\) ⓑ \(−4.13\times10^{−5}\)
89. ⓐ \(1.6\times10^{10}\) ⓑ \(8.43\times10^{−6}\)
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ⓐ 16,000,000,000
ⓑ 0.00000843
In the following exercises, multiply or divide as indicated. Write your answer in decimal form.
90. ⓐ \((3\times10^{−5})(3\times10^9)\) ⓑ \(\dfrac{7\times10^{−3}}{1\times10^{−7}}\)
91. ⓐ \((2\times10^2)(1\times10^{−4})\) ⓑ \(\dfrac{5\times10^{−2}}{1\times10^{−10}}\)
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ⓐ 0.02 ⓑ 500,000,000
92. ⓐ \((7.1\times10^{−2})(2.4\times10^{−4})\) ⓑ \(\dfrac{6\times10^4}{3\times10^{−2}}\)
93. ⓐ \((3.5\times10^{−4})(1.6\times10^{−2})\) ⓑ \(\dfrac{8\times10^6}{4\times10^{−1}}\)
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ⓐ 0.0000056 ⓑ 20,000,000
Writing Exercises
94. Use the Product Property for Exponents to explain why \(x·x=x^2\).
95. Jennifer thinks the quotient \(\dfrac{a^{24}}{a^6}\) simplifies to \(a^4\). What is wrong with her reasoning?
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Answers will vary.
96. Explain why \(−5^3=(−5)^3\) but \(−5^4 \neq (−5)^4\).
97. When you convert a number from decimal notation to scientific notation, how do you know if the exponent will be positive or negative?
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Answers will vary.
Self Check
ⓐ After completing the exercises, use this checklist to evaluate your mastery of the objectives of this section.
ⓑ After reviewing this checklist, what will you do to become confident for all goals?