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HomeSchoolingAsk a question

Deck 4: Exponential and Logarithmic Functions

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Question
Approximate the number using a calculator. Round your answer to three decimal places.
The rabbit population in a forest area grows at the rate of 9%9 \% monthly. If there are 160 rabbits in July, find how many rabbits (rounded to the nearest whole number) should be expected by next July. Use y=160(2.7)0.09ty = 160 ( 2.7 ) ^ { 0.09 t }

A) 468
B) 467
C) 481
D) 455
Use Space or
up arrow
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to flip the card.
Question
Graph the function by making a table of coordinates.
f(x)=(14)xf(x)=\left(\frac{1}{4}\right)^{x}
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{1}{4}\right)^{x} </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{1}{4}\right)^{x} </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{1}{4}\right)^{x} </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{1}{4}\right)^{x} </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{1}{4}\right)^{x} </strong> A) B) C) D) <div style=padding-top: 35px>
Question
The graph of an exponential function is given. Select the function for the graph from the functions listed.
<strong>The graph of an exponential function is given. Select the function for the graph from the functions listed. </strong> A) f ( x ) = 3 ^ { x } - 2 B) f ( x ) = 3 ^ { x } C) f ( x ) = 3 ^ { x - 2 } D) f ( x ) = 3 ^ { x } + 2 <div style=padding-top: 35px>

A) f(x)=3x2f ( x ) = 3 ^ { x } - 2
B) f(x)=3xf ( x ) = 3 ^ { x }
C) f(x)=3x2f ( x ) = 3 ^ { x - 2 }
D) f(x)=3x+2f ( x ) = 3 ^ { x } + 2
Question
Approximate the number using a calculator. Round your answer to three decimal places.
42.94 ^ { - 2.9 }

A) 0.0180.018
B) 11.600- 11.600
C) 70.72870.728
D) 0.3180.318
Question
Graph the function by making a table of coordinates.
f(x)=0.7xf ( x ) = 0.7 ^ { x }
<strong>Graph the function by making a table of coordinates. f ( x ) = 0.7 ^ { x } </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function by making a table of coordinates. f ( x ) = 0.7 ^ { x } </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function by making a table of coordinates. f ( x ) = 0.7 ^ { x } </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function by making a table of coordinates. f ( x ) = 0.7 ^ { x } </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function by making a table of coordinates. f ( x ) = 0.7 ^ { x } </strong> A) B) C) D) <div style=padding-top: 35px>
Question
Graph the function by making a table of coordinates.
f(x)=5xf(x)=5^{x}
<strong>Graph the function by making a table of coordinates. f(x)=5^{x} </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function by making a table of coordinates. f(x)=5^{x} </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function by making a table of coordinates. f(x)=5^{x} </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function by making a table of coordinates. f(x)=5^{x} </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function by making a table of coordinates. f(x)=5^{x} </strong> A) B) C) D) <div style=padding-top: 35px>
Question
Graph the function
Use the graph of f(x)=2xf ( x ) = 2 ^ { x } to obtain the graph of g(x)=2x4g ( x ) = 2 ^ { x - 4 } .
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x - 4 } . </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x - 4 } . </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x - 4 } . </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x - 4 } . </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x - 4 } . </strong> A) B) C) D) <div style=padding-top: 35px>
Question
The graph of an exponential function is given. Select the function for the graph from the functions listed.
<strong>The graph of an exponential function is given. Select the function for the graph from the functions listed. </strong> A) f ( x ) = - 5 ^ { - x } B) f ( x ) = 5 ^ { x } C) f ( x ) = - 5 ^ { x } D) f ( x ) = 5 ^ { - x } . <div style=padding-top: 35px>

A) f(x)=5xf ( x ) = - 5 ^ { - x }
B) f(x)=5xf ( x ) = 5 ^ { x }
C) f(x)=5xf ( x ) = - 5 ^ { x }
D) f(x)=5xf ( x ) = 5 ^ { - x } .
Question
The graph of an exponential function is given. Select the function for the graph from the functions listed.
<strong>The graph of an exponential function is given. Select the function for the graph from the functions listed. </strong> A) f ( x ) = - 3 ^ { x } B) f ( x ) = 3 ^ { x } C) f ( x ) = 3 ^ { - x } D) f ( x ) = - 3 ^ { - x } <div style=padding-top: 35px>

A) f(x)=3xf ( x ) = - 3 ^ { x }
B) f(x)=3xf ( x ) = 3 ^ { x }
C) f(x)=3xf ( x ) = 3 ^ { - x }
D) f(x)=3xf ( x ) = - 3 ^ { - x }
Question
Approximate the number using a calculator. Round your answer to three decimal places.
The formula S=A((1+r)t+11r)S = A \left( \frac { ( 1 + r ) ^ { t + 1 } - 1 } { r } \right) models the value of a retirement account, where A=A = the number of dollars added to the retirement account each year, r=\mathrm { r } = the annual interest rate, and S=\mathrm { S } = the value of the retirement account after t years. If the interest rate is 6%6 \% , how much will the account be worth after 15 years if $400\$ 400 is added each year? Round to the nearest whole number.

A) $10,269\$ 10,269
B) $999\$ 999
C) $6400\$ 6400
D) $15,338\$ 15,338
Question
Graph the function
Use the graph of f(x)=5xf ( x ) = 5 ^ { x } to obtain the graph of g(x)=5x+1g ( x ) = 5 ^ { x } + 1
<strong>Graph the function Use the graph of f ( x ) = 5 ^ { x } to obtain the graph of g ( x ) = 5 ^ { x } + 1 </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function Use the graph of f ( x ) = 5 ^ { x } to obtain the graph of g ( x ) = 5 ^ { x } + 1 </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function Use the graph of f ( x ) = 5 ^ { x } to obtain the graph of g ( x ) = 5 ^ { x } + 1 </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function Use the graph of f ( x ) = 5 ^ { x } to obtain the graph of g ( x ) = 5 ^ { x } + 1 </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function Use the graph of f ( x ) = 5 ^ { x } to obtain the graph of g ( x ) = 5 ^ { x } + 1 </strong> A) B) C) D) <div style=padding-top: 35px>
Question
Approximate the number using a calculator. Round your answer to three decimal places.
63.66 ^ { 3.6 }

A) 632.914632.914
B) 21.60021.600
C) 2176.7822176.782
D) 633.214633.214
Question
The graph of an exponential function is given. Select the function for the graph from the functions listed.
<strong>The graph of an exponential function is given. Select the function for the graph from the functions listed. </strong> A) f ( x ) = 5 ^ { x - 1 } B) f ( x ) = 5 ^ { x } C) f ( x ) = 5 ^ { x } - 1 D) f ( x ) = 5 ^ { x } + 1 <div style=padding-top: 35px>

A) f(x)=5x1f ( x ) = 5 ^ { x - 1 }
B) f(x)=5xf ( x ) = 5 ^ { x }
C) f(x)=5x1f ( x ) = 5 ^ { x } - 1
D) f(x)=5x+1f ( x ) = 5 ^ { x } + 1
Question
Approximate the number using a calculator. Round your answer to three decimal places.
A city is growing at the rate of 0.7%0.7 \% annually. If there were 3,767,0003,767,000 residents in the city in 1992, find how many (to the nearest ten-thousand) are living in that city in 2000 . Use y=3,767,000(2.7)=.007ty = 3,767,000 ( 2.7 ) = .007 \mathrm { t } .

A) 3,980,0003,980,000
B) 570,000
C) 10,170,00010,170,000
D) 4,010,0004,010,000
Question
The graph of an exponential function is given. Select the function for the graph from the functions listed.
<strong>The graph of an exponential function is given. Select the function for the graph from the functions listed. </strong> A) f ( x ) = 2 ^ { x } B) f ( x ) = 2 ^ { x + 1 } C) f ( x ) = 2 ^ { x } + 1 D) f ( x ) = 2 ^ { x } - 1 <div style=padding-top: 35px>

A) f(x)=2xf ( x ) = 2 ^ { x }
B) f(x)=2x+1f ( x ) = 2 ^ { x + 1 }
C) f(x)=2x+1f ( x ) = 2 ^ { x } + 1
D) f(x)=2x1f ( x ) = 2 ^ { x } - 1
Question
Approximate the number using a calculator. Round your answer to three decimal places.
4π4 ^ { \pi }

A) 77.88077.880
B) 97.40997.409
C) 12.56612.566
D) 36.46236.462
Question
Approximate the number using a calculator. Round your answer to three decimal places.
626 ^{\sqrt { 2 }}

A) 12.60312.603
B) 8.4858.485
C) 8.0008.000
D) 18.00018.000
Question
Graph the function by making a table of coordinates.
f(x)=(32)xf(x)=\left(\frac{3}{2}\right)^{x}
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{3}{2}\right)^{x} </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{3}{2}\right)^{x} </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{3}{2}\right)^{x} </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{3}{2}\right)^{x} </strong> A) B) C) D) <div style=padding-top: 35px>
D)
Question
The graph of an exponential function is given. Select the function for the graph from the functions listed.
<strong>The graph of an exponential function is given. Select the function for the graph from the functions listed. </strong> A) f ( x ) = 2 ^ { - x } B) f ( x ) = 2 ^ { x } C) f ( x ) = - 2 ^ { x } D) f ( x ) = - 2 ^ { - x } <div style=padding-top: 35px>

A) f(x)=2xf ( x ) = 2 ^ { - x }
B) f(x)=2xf ( x ) = 2 ^ { x }
C) f(x)=2xf ( x ) = - 2 ^ { x }
D) f(x)=2xf ( x ) = - 2 ^ { - x }
Question
Approximate the number using a calculator. Round your answer to three decimal places.
The function f(x)=500(0.5)x/100f ( x ) = 500 ( 0.5 ) ^ { x / 100 } models the amount in pounds of a particular radioactive material stored in a concrete vault, where xx is the number of years since the material was put into the vault. Find the amount of radioactive material in the vault after 140 years. Round to the nearest whole number.

A) 189 pounds
B) 305 pounds
C) 350 pounds
D) 179 pounds
Question
Approximate the number using a calculator. Round your answer to three decimal places.
e3.4\mathrm { e } ^ { 3.4 }

A) 29.96429.964
B) 9.2429.242
C) 27.84327.843
D) 30.26430.264
Question
Graph the function
Use the graph of f(x)=4xf ( x ) = 4 ^ { x } to obtain the graph of g(x)=4xg ( x ) = 4 ^ { - x } .
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 ^ { - x } . </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 ^ { - x } . </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 ^ { - x } . </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 ^ { - x } . </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 ^ { - x } . </strong> A) B) C) D) <div style=padding-top: 35px>
Question
Graph the function
 Use the graph of f(x)=ex to obtain the graph of g(x)=ex3+4\text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x - 3 } + 4
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x - 3 } + 4 A) B) C) D) <div style=padding-top: 35px>
A)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x - 3 } + 4 A) B) C) D) <div style=padding-top: 35px>
B)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x - 3 } + 4 A) B) C) D) <div style=padding-top: 35px>
C)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x - 3 } + 4 A) B) C) D) <div style=padding-top: 35px>
D)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x - 3 } + 4 A) B) C) D) <div style=padding-top: 35px>
Question
Approximate the number using a calculator. Round your answer to three decimal places.
e1.5\mathrm { e } ^ { - 1.5 }

A) 0.2230.223
В) 4.077- 4.077
C) 0.223- 0.223
D) 0.5230.523
Question
Graph the function
Use the graph of f(x)=exf ( x ) = e ^ { x } to obtain the graph of g(x)=4exg ( x ) = 4 e ^ { x } .
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = 4 e ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = 4 e ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = 4 e ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = 4 e ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = 4 e ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
Question
Graph the function
 Use the graph of f(x)=ex to obtain the graph of g(x)=13ex\text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = \frac { 1 } { 3 } e ^ { x } \text {. }
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = \frac { 1 } { 3 } e ^ { x } \text {. } A) B) C) D) <div style=padding-top: 35px>
A)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = \frac { 1 } { 3 } e ^ { x } \text {. } A) B) C) D) <div style=padding-top: 35px>
B)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = \frac { 1 } { 3 } e ^ { x } \text {. } A) B) C) D) <div style=padding-top: 35px>
C)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = \frac { 1 } { 3 } e ^ { x } \text {. } A) B) C) D) <div style=padding-top: 35px>
D)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = \frac { 1 } { 3 } e ^ { x } \text {. } A) B) C) D) <div style=padding-top: 35px>
Question
Graph the function
Use the graph of f(x)=4xf ( x ) = 4 ^ { x } to obtain the graph of g(x)=144xg ( x ) = \frac { 1 } { 4 } \cdot 4 ^ { x } .
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = \frac { 1 } { 4 } \cdot 4 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = \frac { 1 } { 4 } \cdot 4 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = \frac { 1 } { 4 } \cdot 4 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = \frac { 1 } { 4 } \cdot 4 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = \frac { 1 } { 4 } \cdot 4 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
Question
Graph the function
Use the graph of f(x)=exf ( x ) = e ^ { x } to obtain the graph of g(x)=e4xg ( x ) = e ^ { 4 x } .
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { 4 x } . </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { 4 x } . </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { 4 x } . </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { 4 x } . </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { 4 x } . </strong> A) B) C) D) <div style=padding-top: 35px>
Question
Graph the function
Use the graph of f(x)=3xf ( x ) = 3 ^ { x } to obtain the graph of g(x)=3xg ( x ) = - 3 ^ { x } .
<strong>Graph the function Use the graph of f ( x ) = 3 ^ { x } to obtain the graph of g ( x ) = - 3 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function Use the graph of f ( x ) = 3 ^ { x } to obtain the graph of g ( x ) = - 3 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function Use the graph of f ( x ) = 3 ^ { x } to obtain the graph of g ( x ) = - 3 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function Use the graph of f ( x ) = 3 ^ { x } to obtain the graph of g ( x ) = - 3 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function Use the graph of f ( x ) = 3 ^ { x } to obtain the graph of g ( x ) = - 3 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
Question
Graph the function
Use the graph of f(x)=exf ( x ) = e ^ { x } to obtain the graph of g(x)=ex+4g ( x ) = e ^ { x + 4 } .
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { x + 4 } . </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { x + 4 } . </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { x + 4 } . </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { x + 4 } . </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { x + 4 } . </strong> A) B) C) D) <div style=padding-top: 35px>
Question
Approximate the number using a calculator. Round your answer to three decimal places.
The function D(h)=8e0.4 h\mathrm { D } ( \mathrm { h } ) = 8 \mathrm { e } ^ { - 0.4 \mathrm {~h} } can be used to determine the milligrams D\mathrm { D } of a certain drug in a patient's bloodstream h hours after the drug has been given. How many milligrams (to two decimals) will be present after 7 hours?

A) 0.49mg0.49 \mathrm { mg }
B) 131.56mg131.56 \mathrm { mg }
C) 5.81mg5.81 \mathrm { mg }
D) 0.29mg0.29 \mathrm { mg }
Question
Graph the function
Use the graph of f(x)=2xf ( x ) = 2 ^ { x } to obtain the graph of g(x)=2x+3+2g ( x ) = 2 ^ { x + 3 } + 2
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x + 3 } + 2 </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x + 3 } + 2 </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x + 3 } + 2 </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x + 3 } + 2 </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x + 3 } + 2 </strong> A) B) C) D) <div style=padding-top: 35px>
Question
Approximate the number using a calculator. Round your answer to three decimal places.
The population in a particular country is growing at the rate of 2.2%2.2 \% per year. If 6,365,0006,365,000 people lived there in 1999 , how many will there be in the year 2005 ? Use f(x)=y0e0.022t\mathrm { f } ( \mathrm { x } ) = \mathrm { y } _ { 0 } \mathrm { e } ^ { 0.022 \mathrm { t } } and round to the nearest ten-thousand.

A) 7,260,0007,260,000
B) 7,990,0007,990,000
C) 7,120,0007,120,000
D) 8,720,0008,720,000
Question
Graph the function
 Use the graph of f(x)=ex to obtain the graph of g(x)=ex3\text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x } - 3
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x } - 3 A) B) C) D) <div style=padding-top: 35px>
A)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x } - 3 A) B) C) D) <div style=padding-top: 35px>
B)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x } - 3 A) B) C) D) <div style=padding-top: 35px>
C)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x } - 3 A) B) C) D) <div style=padding-top: 35px>
D)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x } - 3 A) B) C) D) <div style=padding-top: 35px>
Question
Graph the function
 Use the graph of f(x)=ex to obtain the graph of g(x)=ex\text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { - x }
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { - x } A) B) C) D) <div style=padding-top: 35px>
A)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { - x } A) B) C) D) <div style=padding-top: 35px>
B)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { - x } A) B) C) D) <div style=padding-top: 35px>
C)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { - x } A) B) C) D) <div style=padding-top: 35px>
D)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { - x } A) B) C) D) <div style=padding-top: 35px>
Question
Approximate the number using a calculator. Round your answer to three decimal places.
A sample of 400 g400 \mathrm {~g} of lead-210 decays to polonium-210 according to the function given by A(t)=400e0.032t\mathrm { A } ( \mathrm { t } ) = 400 \mathrm { e } ^ { - 0.032 \mathrm { t } } , where t\mathrm { t } is time in years. What is the amount of the sample after 30 years (to the nearest g)?

A) 153 g153 \mathrm {~g}
B) 1045 g1045 \mathrm {~g}
C) 83 g83 \mathrm {~g}
D) 111 g111 \mathrm {~g}
Question
Approximate the number using a calculator. Round your answer to three decimal places.
The size of the bear population at a national park increases at the rate of 4.8%4.8 \% per year. If the size of the current population is 152 , find how many bears there should be in 4 years. Use the function f(x)=152e0.048tf ( x ) = 152 e ^ { 0.048 t } and round to the nearest whole number.

A) 184
B) 186
C) 182
D) 188
Question
Graph the function
Use the graph of f(x)=4xf ( x ) = 4 ^ { x } to obtain the graph of g(x)=44xg ( x ) = 4 \cdot 4 ^ { x } .
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 \cdot 4 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 \cdot 4 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 \cdot 4 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 \cdot 4 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 \cdot 4 ^ { x } . </strong> A) B) C) D) <div style=padding-top: 35px>
Question
Graph the function
 Use the graph of f(x)=ex to obtain the graph of g(x)=ex/21\text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x / 2 } - 1
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x / 2 } - 1 A) B) C) D) <div style=padding-top: 35px>
A)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x / 2 } - 1 A) B) C) D) <div style=padding-top: 35px>
B)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x / 2 } - 1 A) B) C) D) <div style=padding-top: 35px>
C)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x / 2 } - 1 A) B) C) D) <div style=padding-top: 35px>
D)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x / 2 } - 1 A) B) C) D) <div style=padding-top: 35px>
Question
Graph the function
 Use the graph of f(x)=ex to obtain the graph of g(x)=ex\text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = - e ^ { x } \text {. }
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = - e ^ { x } \text {. } A) B) C) D) <div style=padding-top: 35px>
A)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = - e ^ { x } \text {. } A) B) C) D) <div style=padding-top: 35px>
B)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = - e ^ { x } \text {. } A) B) C) D) <div style=padding-top: 35px>
C)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = - e ^ { x } \text {. } A) B) C) D) <div style=padding-top: 35px>
D)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = - e ^ { x } \text {. } A) B) C) D) <div style=padding-top: 35px>
Question
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Find the accumulated value of an investment of $2000 at 4% compounded annually for 14 years.

A) $3463.35
B) $3330.15
C) $3040.00
D) $3120.00
Question
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Suppose that you have $4000 to invest. Which investment yields the greater return over 10 years: 6.25% compounded continuously or 6.3% compounded semiannually?

A) $4000 invested at 6.25% compounded continuously over 10 years yields the greater return.
B) $4000 invested at 6.3% compounded semiannually over 10 years yields the greater return.
C) Both investment plans yield the same return.
Question
Write the equation in its equivalent exponential form.
log28=3\log _ { 2 } 8 = 3

A) 23=823 = 8
B) 32=832 = 8
C) 28=328 = 3
D) 83=283 = 2
Question
Write the equation in its equivalent exponential form.
log5x=2\log _ { 5 } x = 2

A) 52=x5 ^ { 2 } = x
B) 25=x25 = x
C) 5x=25 x = 2
D) x2=5x ^ { 2 } = 5 x
Question
Write the equation in its equivalent logarithmic form.
9x=7299 ^ { x } = 729

A) log9729=x\log _ { 9 } 729 = \mathrm { x }
B) logx729=9\log _ { x } 729 = 9
C) log7299=x\log _ { 729 } 9 = \mathrm { x }
D) log729x=9\log _ { 729 } x = 9
Question
Write the equation in its equivalent logarithmic form.
32=193 - 2 = \frac { 1 } { 9 }

A) log319=2\log _ { 3 } \frac { 1 } { 9 } = - 2
B) log1/33=2\log _ { 1 / 3 } 3 = - 2
C) log219=3\log _ { - 2 } \frac { 1 } { 9 } = 3
D) log32=19\log _ { 3 } - 2 = \frac { 1 } { 9 }
Question
Write the equation in its equivalent exponential form.
logb32=5\log _ { b } 32 = 5

A) b5=32b ^ { 5 } = 32
B) 5b=325 ^ { \mathrm { b } } = 32
C) 325=b32 ^ { 5 } = \mathrm { b }
D) 32b=532 ^ { b } = 5 2
Question
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Suppose that you have $10,000 to invest. Which investment yields the greater return over 9 years: 5.4% compounded monthly or 5.5% compounded quarterly?

A) $10,000 invested at 5.5% compounded quarterly over 9 years yields the greater return.
B) $10,000 invested at 5.4% compounded monthly over 9 years yields the greater return.
C) Both investment plans yield the same return.
Question
Write the equation in its equivalent logarithmic form.
43=6443 = 64

A) log464=3\log _ { 4 } 64 = 3
B) log644=3\log _ { 64 } 4 = 3
C) log364=4\log _ { 3 } 64 = 4
D) log43=64\log _ { 4 } 3 = 64
Question
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Find the accumulated value of an investment of $1020 at 6% compounded annually for 19 years.

A) $3086.11
B) $2911.43
C) $2121.60
D) $2182.80
Question
Write the equation in its equivalent logarithmic form.
23=x2 ^ { 3 } = x

A) log2x=3\log _ { 2 } x = 3
B) logx2=3\log _ { x } 2 = 3
C) log3x=2\log _ { 3 } x = 2
D) log23=x\log _ { 2 } 3 = x
Question
Evaluate the expression without using a calculator.
log525\log _ { 5 } 25

A) 2
B) 10
C) 12\frac { 1 } { 2 }
D) 1
Question
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Find the accumulated value of an investment of $12,000 at 8% compounded semiannually for 11 years.

A) $28,439.03
B) $27,979.67
C) $18,473.45
D) $22,560.00
Question
Write the equation in its equivalent logarithmic form.
103=y10 ^ { 3 } = y

A) log10y=3\log _ { 10 } y = 3
B) log3y=10\log _ { 3 } y = 10
C) logy10=3\log _ { \mathrm { y } } 10 = 3
D) logy3=10\log _ { \mathrm { y } } 3 = 10
Question
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Find the accumulated value of an investment of $5000 at 5% compounded monthly for 8 years.

A) $7452.93
B) $12,911.25
C) $9093.60
D) $8060.16
Question
Write the equation in its equivalent logarithmic form.
83=2\sqrt [ 3 ] { 8 } = 2

A) log82=12\log _ { 8 } 2 = \frac { 1 } { 2 }
B) log28=12\log _ { 2 } 8 = \frac { 1 } { 2 }
C) log83=12\log _ { 8 } 3 = \frac { 1 } { 2 }
D) log28=3\log _ { 2 } 8 = 3
Question
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Find the accumulated value of an investment of $1400 at 8% compounded quarterly for 4 years.

A) $1921.90
B) $1904.68
C) $1515.41
D) $1848.00
Question
Write the equation in its equivalent exponential form.
log39=x\log _ { 3 } 9 = x

A) 3x=93 ^ { x } = 9
B) x3=9x ^ { 3 } = 9
C) 9x=39 ^ { x } = 3
D) 93=x9 ^ { 3 } = \mathrm { x }
Question
Write the equation in its equivalent logarithmic form.
b2=64b ^ { 2 } = 64

A) logb64=2\log _ { b } 64 = 2
B) log64b=2\log _ { 64 } b = 2
C) log264=b\log _ { 2 } 64 = b
D) logb2=64\log _ { \mathrm { b } } 2 = 64
Question
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Find the accumulated value of an investment of $6000 at 8% compounded continuously for 4 years.

A) $8262.77
B) $8362.77
C) $8162.93
D) $7920.00
Question
Evaluate the expression without using a calculator.
log99\log _ { 9 } 9

A) 1
B) 9
C) 19\frac { 1 } { 9 }
D) 0
Question
Graph the function.
 Use the graph of log5x to obtain the graph of f(x)=2+log5x\text { Use the graph of } \log _ { 5 } x \text { to obtain the graph of } f ( x ) = 2 + \log _ { 5 } x \text {. }
<strong>Graph the function. \text { Use the graph of } \log _ { 5 } x \text { to obtain the graph of } f ( x ) = 2 + \log _ { 5 } x \text {. } </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function. \text { Use the graph of } \log _ { 5 } x \text { to obtain the graph of } f ( x ) = 2 + \log _ { 5 } x \text {. } </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function. \text { Use the graph of } \log _ { 5 } x \text { to obtain the graph of } f ( x ) = 2 + \log _ { 5 } x \text {. } </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function. \text { Use the graph of } \log _ { 5 } x \text { to obtain the graph of } f ( x ) = 2 + \log _ { 5 } x \text {. } </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function. \text { Use the graph of } \log _ { 5 } x \text { to obtain the graph of } f ( x ) = 2 + \log _ { 5 } x \text {. } </strong> A) B) C) D) <div style=padding-top: 35px>
Question
Evaluate the expression without using a calculator.
log51125\log _ { 5 } \frac { 1 } { 125 }

A) 3- 3
B) 15
C) 13\frac { 1 } { 3 }
D) 3
Question
Graph the function.
Use the graph of log3x\log _ { 3 } x to obtain the graph of f(x)=log3(x+1)f ( x ) = \log _ { 3 } ( x + 1 ) .
<strong>Graph the function. Use the graph of \log _ { 3 } x to obtain the graph of f ( x ) = \log _ { 3 } ( x + 1 ) . </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function. Use the graph of \log _ { 3 } x to obtain the graph of f ( x ) = \log _ { 3 } ( x + 1 ) . </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function. Use the graph of \log _ { 3 } x to obtain the graph of f ( x ) = \log _ { 3 } ( x + 1 ) . </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function. Use the graph of \log _ { 3 } x to obtain the graph of f ( x ) = \log _ { 3 } ( x + 1 ) . </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function. Use the graph of \log _ { 3 } x to obtain the graph of f ( x ) = \log _ { 3 } ( x + 1 ) . </strong> A) B) C) D) <div style=padding-top: 35px>
Question
The graph of a logarithmic function is given. Select the function for the graph from the options.
<strong>The graph of a logarithmic function is given. Select the function for the graph from the options. </strong> A) f ( x ) = \log _ { 3 } ( - x ) B) f ( x ) = - \log _ { 3 } x C) f ( x ) = 1 - \log _ { 3 } x D) f ( x ) = \log _ { 3 } x <div style=padding-top: 35px>

A) f(x)=log3(x)f ( x ) = \log _ { 3 } ( - x )
B) f(x)=log3xf ( x ) = - \log _ { 3 } x
C) f(x)=1log3xf ( x ) = 1 - \log _ { 3 } x
D) f(x)=log3xf ( x ) = \log _ { 3 } x
Question
Evaluate the expression without using a calculator.
log8813\log _ { 8 } 8 ^ { 13 }

A) 13
B) 8
C) 21
D) log813\log _ { 8 } 13
Question
Evaluate the expression without using a calculator.
log515\log _ { 5 } \frac { 1 } { 5 }

A) 1- 1
B) 5
C) 5- 5
D) 1
Question
The graph of a logarithmic function is given. Select the function for the graph from the options.
<strong>The graph of a logarithmic function is given. Select the function for the graph from the options. </strong> A) f ( x ) = \log _ { 4 } x B) f ( x ) = \log _ { 4 } ( x + 1 ) C) f ( x ) = \log _ { 4 } ( x - 1 ) D) f ( x ) = \log _ { 4 } x + 1 <div style=padding-top: 35px>

A) f(x)=log4xf ( x ) = \log _ { 4 } x
B) f(x)=log4(x+1)f ( x ) = \log _ { 4 } ( x + 1 )
C) f(x)=log4(x1)f ( x ) = \log _ { 4 } ( x - 1 )
D) f(x)=log4x+1f ( x ) = \log _ { 4 } x + 1
Question
The graph of a logarithmic function is given. Select the function for the graph from the options.
<strong>The graph of a logarithmic function is given. Select the function for the graph from the options. </strong> A) f ( x ) = \log _ { 3 } ( x + 2 ) B) f ( x ) = \log _ { 3 } x C) f ( x ) = \log _ { 3 } ( x - 2 ) D) f ( x ) = \log _ { 3 } x + 2 <div style=padding-top: 35px>

A) f(x)=log3(x+2)f ( x ) = \log _ { 3 } ( x + 2 )
B) f(x)=log3xf ( x ) = \log _ { 3 } x
C) f(x)=log3(x2)f ( x ) = \log _ { 3 } ( x - 2 )
D) f(x)=log3x+2f ( x ) = \log _ { 3 } x + 2
Question
Evaluate the expression without using a calculator.
log313\log _ { 3 } \frac { 1 } { \sqrt { 3 } }

A) 12- \frac { 1 } { 2 }
B) 12\frac { 1 } { 2 }
C) 13\frac { 1 } { 3 }
D) 13- \frac { 1 } { 3 }
Question
Evaluate the expression without using a calculator.
log55\log _ { 5 } \sqrt { 5 }

A) 12\frac { 1 } { 2 }
B) 5
C) 15\frac { 1 } { 5 }
D) 1
Question
Graph the function.
Use the graph of log2 x to obtain the graph of f(x) = -2 log2 x. <strong>Graph the function. Use the graph of log2 x to obtain the graph of f(x) = -2 log2 x. </strong> A) B) C) D) <div style=padding-top: 35px>

A)
<strong>Graph the function. Use the graph of log2 x to obtain the graph of f(x) = -2 log2 x. </strong> A) B) C) D) <div style=padding-top: 35px>
B)
<strong>Graph the function. Use the graph of log2 x to obtain the graph of f(x) = -2 log2 x. </strong> A) B) C) D) <div style=padding-top: 35px>
C)
<strong>Graph the function. Use the graph of log2 x to obtain the graph of f(x) = -2 log2 x. </strong> A) B) C) D) <div style=padding-top: 35px>
D)
<strong>Graph the function. Use the graph of log2 x to obtain the graph of f(x) = -2 log2 x. </strong> A) B) C) D) <div style=padding-top: 35px>
Question
The graph of a logarithmic function is given. Select the function for the graph from the options.
<strong>The graph of a logarithmic function is given. Select the function for the graph from the options. </strong> A) f ( x ) = 1 - \log _ { 4 } x B) f ( x ) = \log _ { 4 } ( - x ) C) f ( x ) = - \log _ { 4 } x D) f ( x ) = \log _ { 4 } x <div style=padding-top: 35px>

A) f(x)=1log4xf ( x ) = 1 - \log _ { 4 } x
B) f(x)=log4(x)f ( x ) = \log _ { 4 } ( - x )
C) f(x)=log4xf ( x ) = - \log _ { 4 } x
D) f(x)=log4xf ( x ) = \log _ { 4 } x
Question
The graph of a logarithmic function is given. Select the function for the graph from the options.
<strong>The graph of a logarithmic function is given. Select the function for the graph from the options. </strong> A) f ( x ) = \log _ { 4 } x - 2 B) f ( x ) = \log _ { 4 } x C) f ( x ) = \log _ { 4 } ( x + 2 ) D) f ( x ) = \log _ { 4 } ( x - 2 ) <div style=padding-top: 35px>

A) f(x)=log4x2f ( x ) = \log _ { 4 } x - 2
B) f(x)=log4xf ( x ) = \log _ { 4 } x
C) f(x)=log4(x+2)f ( x ) = \log _ { 4 } ( x + 2 )
D) f(x)=log4(x2)f ( x ) = \log _ { 4 } ( x - 2 )
Question
Evaluate the expression without using a calculator.
log101000\log _ { 10 } 1000

A) 3
B) 30
C) 11000\frac { 1 } { 1000 }
D) 3- 3
Question
Evaluate the expression without using a calculator.
log644\log _ { 64 } 4

A) 13\frac { 1 } { 3 }
B) 12
C) 3
D) 1
Question
Evaluate the expression without using a calculator.
log5625\log _ { 5 } 625

A) 4
B) 625
C) 20
D) 5
Question
Evaluate the expression without using a calculator.
3log318{ } _ { 3 } \log _ { 3 } 18

A) 18
B) 3
C) 21
D) log318\log _ { 3 } 18
Question
Evaluate the expression without using a calculator.
log111\log _ { 11 } 1

A) 0
B) 11
C) 111\frac { 1 } { 11 }
D) 1
Question
The graph of a logarithmic function is given. Select the function for the graph from the options.
<strong>The graph of a logarithmic function is given. Select the function for the graph from the options. </strong> A) f ( x ) = - \log _ { 4 } x B) f ( x ) = \log _ { 4 } ( - x ) C) f ( x ) = 1 - \log _ { 4 } x D) f ( x ) = \log _ { 4 } x <div style=padding-top: 35px>

A) f(x)=log4xf ( x ) = - \log _ { 4 } x
B) f(x)=log4(x)f ( x ) = \log _ { 4 } ( - x )
C) f(x)=1log4xf ( x ) = 1 - \log _ { 4 } x
D) f(x)=log4xf ( x ) = \log _ { 4 } x
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Deck 4: Exponential and Logarithmic Functions
1
Approximate the number using a calculator. Round your answer to three decimal places.
The rabbit population in a forest area grows at the rate of 9%9 \% monthly. If there are 160 rabbits in July, find how many rabbits (rounded to the nearest whole number) should be expected by next July. Use y=160(2.7)0.09ty = 160 ( 2.7 ) ^ { 0.09 t }

A) 468
B) 467
C) 481
D) 455
A
2
Graph the function by making a table of coordinates.
f(x)=(14)xf(x)=\left(\frac{1}{4}\right)^{x}
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{1}{4}\right)^{x} </strong> A) B) C) D)

A)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{1}{4}\right)^{x} </strong> A) B) C) D)
B)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{1}{4}\right)^{x} </strong> A) B) C) D)
C)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{1}{4}\right)^{x} </strong> A) B) C) D)
D)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{1}{4}\right)^{x} </strong> A) B) C) D)
A
3
The graph of an exponential function is given. Select the function for the graph from the functions listed.
<strong>The graph of an exponential function is given. Select the function for the graph from the functions listed. </strong> A) f ( x ) = 3 ^ { x } - 2 B) f ( x ) = 3 ^ { x } C) f ( x ) = 3 ^ { x - 2 } D) f ( x ) = 3 ^ { x } + 2

A) f(x)=3x2f ( x ) = 3 ^ { x } - 2
B) f(x)=3xf ( x ) = 3 ^ { x }
C) f(x)=3x2f ( x ) = 3 ^ { x - 2 }
D) f(x)=3x+2f ( x ) = 3 ^ { x } + 2
A
4
Approximate the number using a calculator. Round your answer to three decimal places.
42.94 ^ { - 2.9 }

A) 0.0180.018
B) 11.600- 11.600
C) 70.72870.728
D) 0.3180.318
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5
Graph the function by making a table of coordinates.
f(x)=0.7xf ( x ) = 0.7 ^ { x }
<strong>Graph the function by making a table of coordinates. f ( x ) = 0.7 ^ { x } </strong> A) B) C) D)

A)
<strong>Graph the function by making a table of coordinates. f ( x ) = 0.7 ^ { x } </strong> A) B) C) D)
B)
<strong>Graph the function by making a table of coordinates. f ( x ) = 0.7 ^ { x } </strong> A) B) C) D)
C)
<strong>Graph the function by making a table of coordinates. f ( x ) = 0.7 ^ { x } </strong> A) B) C) D)
D)
<strong>Graph the function by making a table of coordinates. f ( x ) = 0.7 ^ { x } </strong> A) B) C) D)
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6
Graph the function by making a table of coordinates.
f(x)=5xf(x)=5^{x}
<strong>Graph the function by making a table of coordinates. f(x)=5^{x} </strong> A) B) C) D)

A)
<strong>Graph the function by making a table of coordinates. f(x)=5^{x} </strong> A) B) C) D)
B)
<strong>Graph the function by making a table of coordinates. f(x)=5^{x} </strong> A) B) C) D)
C)
<strong>Graph the function by making a table of coordinates. f(x)=5^{x} </strong> A) B) C) D)
D)
<strong>Graph the function by making a table of coordinates. f(x)=5^{x} </strong> A) B) C) D)
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7
Graph the function
Use the graph of f(x)=2xf ( x ) = 2 ^ { x } to obtain the graph of g(x)=2x4g ( x ) = 2 ^ { x - 4 } .
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x - 4 } . </strong> A) B) C) D)

A)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x - 4 } . </strong> A) B) C) D)
B)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x - 4 } . </strong> A) B) C) D)
C)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x - 4 } . </strong> A) B) C) D)
D)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x - 4 } . </strong> A) B) C) D)
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8
The graph of an exponential function is given. Select the function for the graph from the functions listed.
<strong>The graph of an exponential function is given. Select the function for the graph from the functions listed. </strong> A) f ( x ) = - 5 ^ { - x } B) f ( x ) = 5 ^ { x } C) f ( x ) = - 5 ^ { x } D) f ( x ) = 5 ^ { - x } .

A) f(x)=5xf ( x ) = - 5 ^ { - x }
B) f(x)=5xf ( x ) = 5 ^ { x }
C) f(x)=5xf ( x ) = - 5 ^ { x }
D) f(x)=5xf ( x ) = 5 ^ { - x } .
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9
The graph of an exponential function is given. Select the function for the graph from the functions listed.
<strong>The graph of an exponential function is given. Select the function for the graph from the functions listed. </strong> A) f ( x ) = - 3 ^ { x } B) f ( x ) = 3 ^ { x } C) f ( x ) = 3 ^ { - x } D) f ( x ) = - 3 ^ { - x }

A) f(x)=3xf ( x ) = - 3 ^ { x }
B) f(x)=3xf ( x ) = 3 ^ { x }
C) f(x)=3xf ( x ) = 3 ^ { - x }
D) f(x)=3xf ( x ) = - 3 ^ { - x }
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10
Approximate the number using a calculator. Round your answer to three decimal places.
The formula S=A((1+r)t+11r)S = A \left( \frac { ( 1 + r ) ^ { t + 1 } - 1 } { r } \right) models the value of a retirement account, where A=A = the number of dollars added to the retirement account each year, r=\mathrm { r } = the annual interest rate, and S=\mathrm { S } = the value of the retirement account after t years. If the interest rate is 6%6 \% , how much will the account be worth after 15 years if $400\$ 400 is added each year? Round to the nearest whole number.

A) $10,269\$ 10,269
B) $999\$ 999
C) $6400\$ 6400
D) $15,338\$ 15,338
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11
Graph the function
Use the graph of f(x)=5xf ( x ) = 5 ^ { x } to obtain the graph of g(x)=5x+1g ( x ) = 5 ^ { x } + 1
<strong>Graph the function Use the graph of f ( x ) = 5 ^ { x } to obtain the graph of g ( x ) = 5 ^ { x } + 1 </strong> A) B) C) D)

A)
<strong>Graph the function Use the graph of f ( x ) = 5 ^ { x } to obtain the graph of g ( x ) = 5 ^ { x } + 1 </strong> A) B) C) D)
B)
<strong>Graph the function Use the graph of f ( x ) = 5 ^ { x } to obtain the graph of g ( x ) = 5 ^ { x } + 1 </strong> A) B) C) D)
C)
<strong>Graph the function Use the graph of f ( x ) = 5 ^ { x } to obtain the graph of g ( x ) = 5 ^ { x } + 1 </strong> A) B) C) D)
D)
<strong>Graph the function Use the graph of f ( x ) = 5 ^ { x } to obtain the graph of g ( x ) = 5 ^ { x } + 1 </strong> A) B) C) D)
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12
Approximate the number using a calculator. Round your answer to three decimal places.
63.66 ^ { 3.6 }

A) 632.914632.914
B) 21.60021.600
C) 2176.7822176.782
D) 633.214633.214
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13
The graph of an exponential function is given. Select the function for the graph from the functions listed.
<strong>The graph of an exponential function is given. Select the function for the graph from the functions listed. </strong> A) f ( x ) = 5 ^ { x - 1 } B) f ( x ) = 5 ^ { x } C) f ( x ) = 5 ^ { x } - 1 D) f ( x ) = 5 ^ { x } + 1

A) f(x)=5x1f ( x ) = 5 ^ { x - 1 }
B) f(x)=5xf ( x ) = 5 ^ { x }
C) f(x)=5x1f ( x ) = 5 ^ { x } - 1
D) f(x)=5x+1f ( x ) = 5 ^ { x } + 1
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14
Approximate the number using a calculator. Round your answer to three decimal places.
A city is growing at the rate of 0.7%0.7 \% annually. If there were 3,767,0003,767,000 residents in the city in 1992, find how many (to the nearest ten-thousand) are living in that city in 2000 . Use y=3,767,000(2.7)=.007ty = 3,767,000 ( 2.7 ) = .007 \mathrm { t } .

A) 3,980,0003,980,000
B) 570,000
C) 10,170,00010,170,000
D) 4,010,0004,010,000
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15
The graph of an exponential function is given. Select the function for the graph from the functions listed.
<strong>The graph of an exponential function is given. Select the function for the graph from the functions listed. </strong> A) f ( x ) = 2 ^ { x } B) f ( x ) = 2 ^ { x + 1 } C) f ( x ) = 2 ^ { x } + 1 D) f ( x ) = 2 ^ { x } - 1

A) f(x)=2xf ( x ) = 2 ^ { x }
B) f(x)=2x+1f ( x ) = 2 ^ { x + 1 }
C) f(x)=2x+1f ( x ) = 2 ^ { x } + 1
D) f(x)=2x1f ( x ) = 2 ^ { x } - 1
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16
Approximate the number using a calculator. Round your answer to three decimal places.
4π4 ^ { \pi }

A) 77.88077.880
B) 97.40997.409
C) 12.56612.566
D) 36.46236.462
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17
Approximate the number using a calculator. Round your answer to three decimal places.
626 ^{\sqrt { 2 }}

A) 12.60312.603
B) 8.4858.485
C) 8.0008.000
D) 18.00018.000
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18
Graph the function by making a table of coordinates.
f(x)=(32)xf(x)=\left(\frac{3}{2}\right)^{x}
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{3}{2}\right)^{x} </strong> A) B) C) D)

A)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{3}{2}\right)^{x} </strong> A) B) C) D)
B)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{3}{2}\right)^{x} </strong> A) B) C) D)
C)
<strong>Graph the function by making a table of coordinates. f(x)=\left(\frac{3}{2}\right)^{x} </strong> A) B) C) D)
D)
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19
The graph of an exponential function is given. Select the function for the graph from the functions listed.
<strong>The graph of an exponential function is given. Select the function for the graph from the functions listed. </strong> A) f ( x ) = 2 ^ { - x } B) f ( x ) = 2 ^ { x } C) f ( x ) = - 2 ^ { x } D) f ( x ) = - 2 ^ { - x }

A) f(x)=2xf ( x ) = 2 ^ { - x }
B) f(x)=2xf ( x ) = 2 ^ { x }
C) f(x)=2xf ( x ) = - 2 ^ { x }
D) f(x)=2xf ( x ) = - 2 ^ { - x }
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20
Approximate the number using a calculator. Round your answer to three decimal places.
The function f(x)=500(0.5)x/100f ( x ) = 500 ( 0.5 ) ^ { x / 100 } models the amount in pounds of a particular radioactive material stored in a concrete vault, where xx is the number of years since the material was put into the vault. Find the amount of radioactive material in the vault after 140 years. Round to the nearest whole number.

A) 189 pounds
B) 305 pounds
C) 350 pounds
D) 179 pounds
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21
Approximate the number using a calculator. Round your answer to three decimal places.
e3.4\mathrm { e } ^ { 3.4 }

A) 29.96429.964
B) 9.2429.242
C) 27.84327.843
D) 30.26430.264
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22
Graph the function
Use the graph of f(x)=4xf ( x ) = 4 ^ { x } to obtain the graph of g(x)=4xg ( x ) = 4 ^ { - x } .
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 ^ { - x } . </strong> A) B) C) D)

A)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 ^ { - x } . </strong> A) B) C) D)
B)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 ^ { - x } . </strong> A) B) C) D)
C)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 ^ { - x } . </strong> A) B) C) D)
D)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 ^ { - x } . </strong> A) B) C) D)
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23
Graph the function
 Use the graph of f(x)=ex to obtain the graph of g(x)=ex3+4\text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x - 3 } + 4
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x - 3 } + 4 A) B) C) D)
A)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x - 3 } + 4 A) B) C) D)
B)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x - 3 } + 4 A) B) C) D)
C)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x - 3 } + 4 A) B) C) D)
D)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x - 3 } + 4 A) B) C) D)
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24
Approximate the number using a calculator. Round your answer to three decimal places.
e1.5\mathrm { e } ^ { - 1.5 }

A) 0.2230.223
В) 4.077- 4.077
C) 0.223- 0.223
D) 0.5230.523
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25
Graph the function
Use the graph of f(x)=exf ( x ) = e ^ { x } to obtain the graph of g(x)=4exg ( x ) = 4 e ^ { x } .
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = 4 e ^ { x } . </strong> A) B) C) D)

A)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = 4 e ^ { x } . </strong> A) B) C) D)
B)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = 4 e ^ { x } . </strong> A) B) C) D)
C)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = 4 e ^ { x } . </strong> A) B) C) D)
D)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = 4 e ^ { x } . </strong> A) B) C) D)
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26
Graph the function
 Use the graph of f(x)=ex to obtain the graph of g(x)=13ex\text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = \frac { 1 } { 3 } e ^ { x } \text {. }
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = \frac { 1 } { 3 } e ^ { x } \text {. } A) B) C) D)
A)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = \frac { 1 } { 3 } e ^ { x } \text {. } A) B) C) D)
B)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = \frac { 1 } { 3 } e ^ { x } \text {. } A) B) C) D)
C)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = \frac { 1 } { 3 } e ^ { x } \text {. } A) B) C) D)
D)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = \frac { 1 } { 3 } e ^ { x } \text {. } A) B) C) D)
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27
Graph the function
Use the graph of f(x)=4xf ( x ) = 4 ^ { x } to obtain the graph of g(x)=144xg ( x ) = \frac { 1 } { 4 } \cdot 4 ^ { x } .
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = \frac { 1 } { 4 } \cdot 4 ^ { x } . </strong> A) B) C) D)

A)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = \frac { 1 } { 4 } \cdot 4 ^ { x } . </strong> A) B) C) D)
B)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = \frac { 1 } { 4 } \cdot 4 ^ { x } . </strong> A) B) C) D)
C)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = \frac { 1 } { 4 } \cdot 4 ^ { x } . </strong> A) B) C) D)
D)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = \frac { 1 } { 4 } \cdot 4 ^ { x } . </strong> A) B) C) D)
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28
Graph the function
Use the graph of f(x)=exf ( x ) = e ^ { x } to obtain the graph of g(x)=e4xg ( x ) = e ^ { 4 x } .
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { 4 x } . </strong> A) B) C) D)

A)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { 4 x } . </strong> A) B) C) D)
B)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { 4 x } . </strong> A) B) C) D)
C)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { 4 x } . </strong> A) B) C) D)
D)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { 4 x } . </strong> A) B) C) D)
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29
Graph the function
Use the graph of f(x)=3xf ( x ) = 3 ^ { x } to obtain the graph of g(x)=3xg ( x ) = - 3 ^ { x } .
<strong>Graph the function Use the graph of f ( x ) = 3 ^ { x } to obtain the graph of g ( x ) = - 3 ^ { x } . </strong> A) B) C) D)

A)
<strong>Graph the function Use the graph of f ( x ) = 3 ^ { x } to obtain the graph of g ( x ) = - 3 ^ { x } . </strong> A) B) C) D)
B)
<strong>Graph the function Use the graph of f ( x ) = 3 ^ { x } to obtain the graph of g ( x ) = - 3 ^ { x } . </strong> A) B) C) D)
C)
<strong>Graph the function Use the graph of f ( x ) = 3 ^ { x } to obtain the graph of g ( x ) = - 3 ^ { x } . </strong> A) B) C) D)
D)
<strong>Graph the function Use the graph of f ( x ) = 3 ^ { x } to obtain the graph of g ( x ) = - 3 ^ { x } . </strong> A) B) C) D)
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30
Graph the function
Use the graph of f(x)=exf ( x ) = e ^ { x } to obtain the graph of g(x)=ex+4g ( x ) = e ^ { x + 4 } .
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { x + 4 } . </strong> A) B) C) D)

A)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { x + 4 } . </strong> A) B) C) D)
B)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { x + 4 } . </strong> A) B) C) D)
C)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { x + 4 } . </strong> A) B) C) D)
D)
<strong>Graph the function Use the graph of f ( x ) = e ^ { x } to obtain the graph of g ( x ) = e ^ { x + 4 } . </strong> A) B) C) D)
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31
Approximate the number using a calculator. Round your answer to three decimal places.
The function D(h)=8e0.4 h\mathrm { D } ( \mathrm { h } ) = 8 \mathrm { e } ^ { - 0.4 \mathrm {~h} } can be used to determine the milligrams D\mathrm { D } of a certain drug in a patient's bloodstream h hours after the drug has been given. How many milligrams (to two decimals) will be present after 7 hours?

A) 0.49mg0.49 \mathrm { mg }
B) 131.56mg131.56 \mathrm { mg }
C) 5.81mg5.81 \mathrm { mg }
D) 0.29mg0.29 \mathrm { mg }
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32
Graph the function
Use the graph of f(x)=2xf ( x ) = 2 ^ { x } to obtain the graph of g(x)=2x+3+2g ( x ) = 2 ^ { x + 3 } + 2
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x + 3 } + 2 </strong> A) B) C) D)

A)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x + 3 } + 2 </strong> A) B) C) D)
B)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x + 3 } + 2 </strong> A) B) C) D)
C)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x + 3 } + 2 </strong> A) B) C) D)
D)
<strong>Graph the function Use the graph of f ( x ) = 2 ^ { x } to obtain the graph of g ( x ) = 2 ^ { x + 3 } + 2 </strong> A) B) C) D)
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33
Approximate the number using a calculator. Round your answer to three decimal places.
The population in a particular country is growing at the rate of 2.2%2.2 \% per year. If 6,365,0006,365,000 people lived there in 1999 , how many will there be in the year 2005 ? Use f(x)=y0e0.022t\mathrm { f } ( \mathrm { x } ) = \mathrm { y } _ { 0 } \mathrm { e } ^ { 0.022 \mathrm { t } } and round to the nearest ten-thousand.

A) 7,260,0007,260,000
B) 7,990,0007,990,000
C) 7,120,0007,120,000
D) 8,720,0008,720,000
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34
Graph the function
 Use the graph of f(x)=ex to obtain the graph of g(x)=ex3\text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x } - 3
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x } - 3 A) B) C) D)
A)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x } - 3 A) B) C) D)
B)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x } - 3 A) B) C) D)
C)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x } - 3 A) B) C) D)
D)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x } - 3 A) B) C) D)
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35
Graph the function
 Use the graph of f(x)=ex to obtain the graph of g(x)=ex\text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { - x }
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { - x } A) B) C) D)
A)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { - x } A) B) C) D)
B)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { - x } A) B) C) D)
C)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { - x } A) B) C) D)
D)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { - x } A) B) C) D)
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36
Approximate the number using a calculator. Round your answer to three decimal places.
A sample of 400 g400 \mathrm {~g} of lead-210 decays to polonium-210 according to the function given by A(t)=400e0.032t\mathrm { A } ( \mathrm { t } ) = 400 \mathrm { e } ^ { - 0.032 \mathrm { t } } , where t\mathrm { t } is time in years. What is the amount of the sample after 30 years (to the nearest g)?

A) 153 g153 \mathrm {~g}
B) 1045 g1045 \mathrm {~g}
C) 83 g83 \mathrm {~g}
D) 111 g111 \mathrm {~g}
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37
Approximate the number using a calculator. Round your answer to three decimal places.
The size of the bear population at a national park increases at the rate of 4.8%4.8 \% per year. If the size of the current population is 152 , find how many bears there should be in 4 years. Use the function f(x)=152e0.048tf ( x ) = 152 e ^ { 0.048 t } and round to the nearest whole number.

A) 184
B) 186
C) 182
D) 188
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38
Graph the function
Use the graph of f(x)=4xf ( x ) = 4 ^ { x } to obtain the graph of g(x)=44xg ( x ) = 4 \cdot 4 ^ { x } .
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 \cdot 4 ^ { x } . </strong> A) B) C) D)

A)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 \cdot 4 ^ { x } . </strong> A) B) C) D)
B)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 \cdot 4 ^ { x } . </strong> A) B) C) D)
C)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 \cdot 4 ^ { x } . </strong> A) B) C) D)
D)
<strong>Graph the function Use the graph of f ( x ) = 4 ^ { x } to obtain the graph of g ( x ) = 4 \cdot 4 ^ { x } . </strong> A) B) C) D)
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39
Graph the function
 Use the graph of f(x)=ex to obtain the graph of g(x)=ex/21\text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x / 2 } - 1
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x / 2 } - 1 A) B) C) D)
A)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x / 2 } - 1 A) B) C) D)
B)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x / 2 } - 1 A) B) C) D)
C)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x / 2 } - 1 A) B) C) D)
D)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = e ^ { x / 2 } - 1 A) B) C) D)
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40
Graph the function
 Use the graph of f(x)=ex to obtain the graph of g(x)=ex\text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = - e ^ { x } \text {. }
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = - e ^ { x } \text {. } A) B) C) D)
A)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = - e ^ { x } \text {. } A) B) C) D)
B)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = - e ^ { x } \text {. } A) B) C) D)
C)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = - e ^ { x } \text {. } A) B) C) D)
D)
Graph the function \text { Use the graph of } f ( x ) = e ^ { x } \text { to obtain the graph of } g ( x ) = - e ^ { x } \text {. } A) B) C) D)
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41
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Find the accumulated value of an investment of $2000 at 4% compounded annually for 14 years.

A) $3463.35
B) $3330.15
C) $3040.00
D) $3120.00
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42
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Suppose that you have $4000 to invest. Which investment yields the greater return over 10 years: 6.25% compounded continuously or 6.3% compounded semiannually?

A) $4000 invested at 6.25% compounded continuously over 10 years yields the greater return.
B) $4000 invested at 6.3% compounded semiannually over 10 years yields the greater return.
C) Both investment plans yield the same return.
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43
Write the equation in its equivalent exponential form.
log28=3\log _ { 2 } 8 = 3

A) 23=823 = 8
B) 32=832 = 8
C) 28=328 = 3
D) 83=283 = 2
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44
Write the equation in its equivalent exponential form.
log5x=2\log _ { 5 } x = 2

A) 52=x5 ^ { 2 } = x
B) 25=x25 = x
C) 5x=25 x = 2
D) x2=5x ^ { 2 } = 5 x
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45
Write the equation in its equivalent logarithmic form.
9x=7299 ^ { x } = 729

A) log9729=x\log _ { 9 } 729 = \mathrm { x }
B) logx729=9\log _ { x } 729 = 9
C) log7299=x\log _ { 729 } 9 = \mathrm { x }
D) log729x=9\log _ { 729 } x = 9
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46
Write the equation in its equivalent logarithmic form.
32=193 - 2 = \frac { 1 } { 9 }

A) log319=2\log _ { 3 } \frac { 1 } { 9 } = - 2
B) log1/33=2\log _ { 1 / 3 } 3 = - 2
C) log219=3\log _ { - 2 } \frac { 1 } { 9 } = 3
D) log32=19\log _ { 3 } - 2 = \frac { 1 } { 9 }
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47
Write the equation in its equivalent exponential form.
logb32=5\log _ { b } 32 = 5

A) b5=32b ^ { 5 } = 32
B) 5b=325 ^ { \mathrm { b } } = 32
C) 325=b32 ^ { 5 } = \mathrm { b }
D) 32b=532 ^ { b } = 5 2
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48
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Suppose that you have $10,000 to invest. Which investment yields the greater return over 9 years: 5.4% compounded monthly or 5.5% compounded quarterly?

A) $10,000 invested at 5.5% compounded quarterly over 9 years yields the greater return.
B) $10,000 invested at 5.4% compounded monthly over 9 years yields the greater return.
C) Both investment plans yield the same return.
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49
Write the equation in its equivalent logarithmic form.
43=6443 = 64

A) log464=3\log _ { 4 } 64 = 3
B) log644=3\log _ { 64 } 4 = 3
C) log364=4\log _ { 3 } 64 = 4
D) log43=64\log _ { 4 } 3 = 64
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50
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Find the accumulated value of an investment of $1020 at 6% compounded annually for 19 years.

A) $3086.11
B) $2911.43
C) $2121.60
D) $2182.80
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51
Write the equation in its equivalent logarithmic form.
23=x2 ^ { 3 } = x

A) log2x=3\log _ { 2 } x = 3
B) logx2=3\log _ { x } 2 = 3
C) log3x=2\log _ { 3 } x = 2
D) log23=x\log _ { 2 } 3 = x
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52
Evaluate the expression without using a calculator.
log525\log _ { 5 } 25

A) 2
B) 10
C) 12\frac { 1 } { 2 }
D) 1
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53
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Find the accumulated value of an investment of $12,000 at 8% compounded semiannually for 11 years.

A) $28,439.03
B) $27,979.67
C) $18,473.45
D) $22,560.00
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Unlock Deck
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54
Write the equation in its equivalent logarithmic form.
103=y10 ^ { 3 } = y

A) log10y=3\log _ { 10 } y = 3
B) log3y=10\log _ { 3 } y = 10
C) logy10=3\log _ { \mathrm { y } } 10 = 3
D) logy3=10\log _ { \mathrm { y } } 3 = 10
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55
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Find the accumulated value of an investment of $5000 at 5% compounded monthly for 8 years.

A) $7452.93
B) $12,911.25
C) $9093.60
D) $8060.16
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56
Write the equation in its equivalent logarithmic form.
83=2\sqrt [ 3 ] { 8 } = 2

A) log82=12\log _ { 8 } 2 = \frac { 1 } { 2 }
B) log28=12\log _ { 2 } 8 = \frac { 1 } { 2 }
C) log83=12\log _ { 8 } 3 = \frac { 1 } { 2 }
D) log28=3\log _ { 2 } 8 = 3
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57
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Find the accumulated value of an investment of $1400 at 8% compounded quarterly for 4 years.

A) $1921.90
B) $1904.68
C) $1515.41
D) $1848.00
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58
Write the equation in its equivalent exponential form.
log39=x\log _ { 3 } 9 = x

A) 3x=93 ^ { x } = 9
B) x3=9x ^ { 3 } = 9
C) 9x=39 ^ { x } = 3
D) 93=x9 ^ { 3 } = \mathrm { x }
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59
Write the equation in its equivalent logarithmic form.
b2=64b ^ { 2 } = 64

A) logb64=2\log _ { b } 64 = 2
B) log64b=2\log _ { 64 } b = 2
C) log264=b\log _ { 2 } 64 = b
D) logb2=64\log _ { \mathrm { b } } 2 = 64
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60
Use the compound interest formulas A A=P(1+rn)nt and A=Pert to solve. A = P \left( 1 + \frac { r } { n } \right) ^ { n t } \text { and } A = P e ^ { r t } \text { to solve. }
Find the accumulated value of an investment of $6000 at 8% compounded continuously for 4 years.

A) $8262.77
B) $8362.77
C) $8162.93
D) $7920.00
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61
Evaluate the expression without using a calculator.
log99\log _ { 9 } 9

A) 1
B) 9
C) 19\frac { 1 } { 9 }
D) 0
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62
Graph the function.
 Use the graph of log5x to obtain the graph of f(x)=2+log5x\text { Use the graph of } \log _ { 5 } x \text { to obtain the graph of } f ( x ) = 2 + \log _ { 5 } x \text {. }
<strong>Graph the function. \text { Use the graph of } \log _ { 5 } x \text { to obtain the graph of } f ( x ) = 2 + \log _ { 5 } x \text {. } </strong> A) B) C) D)

A)
<strong>Graph the function. \text { Use the graph of } \log _ { 5 } x \text { to obtain the graph of } f ( x ) = 2 + \log _ { 5 } x \text {. } </strong> A) B) C) D)
B)
<strong>Graph the function. \text { Use the graph of } \log _ { 5 } x \text { to obtain the graph of } f ( x ) = 2 + \log _ { 5 } x \text {. } </strong> A) B) C) D)
C)
<strong>Graph the function. \text { Use the graph of } \log _ { 5 } x \text { to obtain the graph of } f ( x ) = 2 + \log _ { 5 } x \text {. } </strong> A) B) C) D)
D)
<strong>Graph the function. \text { Use the graph of } \log _ { 5 } x \text { to obtain the graph of } f ( x ) = 2 + \log _ { 5 } x \text {. } </strong> A) B) C) D)
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63
Evaluate the expression without using a calculator.
log51125\log _ { 5 } \frac { 1 } { 125 }

A) 3- 3
B) 15
C) 13\frac { 1 } { 3 }
D) 3
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64
Graph the function.
Use the graph of log3x\log _ { 3 } x to obtain the graph of f(x)=log3(x+1)f ( x ) = \log _ { 3 } ( x + 1 ) .
<strong>Graph the function. Use the graph of \log _ { 3 } x to obtain the graph of f ( x ) = \log _ { 3 } ( x + 1 ) . </strong> A) B) C) D)

A)
<strong>Graph the function. Use the graph of \log _ { 3 } x to obtain the graph of f ( x ) = \log _ { 3 } ( x + 1 ) . </strong> A) B) C) D)
B)
<strong>Graph the function. Use the graph of \log _ { 3 } x to obtain the graph of f ( x ) = \log _ { 3 } ( x + 1 ) . </strong> A) B) C) D)
C)
<strong>Graph the function. Use the graph of \log _ { 3 } x to obtain the graph of f ( x ) = \log _ { 3 } ( x + 1 ) . </strong> A) B) C) D)
D)
<strong>Graph the function. Use the graph of \log _ { 3 } x to obtain the graph of f ( x ) = \log _ { 3 } ( x + 1 ) . </strong> A) B) C) D)
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65
The graph of a logarithmic function is given. Select the function for the graph from the options.
<strong>The graph of a logarithmic function is given. Select the function for the graph from the options. </strong> A) f ( x ) = \log _ { 3 } ( - x ) B) f ( x ) = - \log _ { 3 } x C) f ( x ) = 1 - \log _ { 3 } x D) f ( x ) = \log _ { 3 } x

A) f(x)=log3(x)f ( x ) = \log _ { 3 } ( - x )
B) f(x)=log3xf ( x ) = - \log _ { 3 } x
C) f(x)=1log3xf ( x ) = 1 - \log _ { 3 } x
D) f(x)=log3xf ( x ) = \log _ { 3 } x
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66
Evaluate the expression without using a calculator.
log8813\log _ { 8 } 8 ^ { 13 }

A) 13
B) 8
C) 21
D) log813\log _ { 8 } 13
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67
Evaluate the expression without using a calculator.
log515\log _ { 5 } \frac { 1 } { 5 }

A) 1- 1
B) 5
C) 5- 5
D) 1
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68
The graph of a logarithmic function is given. Select the function for the graph from the options.
<strong>The graph of a logarithmic function is given. Select the function for the graph from the options. </strong> A) f ( x ) = \log _ { 4 } x B) f ( x ) = \log _ { 4 } ( x + 1 ) C) f ( x ) = \log _ { 4 } ( x - 1 ) D) f ( x ) = \log _ { 4 } x + 1

A) f(x)=log4xf ( x ) = \log _ { 4 } x
B) f(x)=log4(x+1)f ( x ) = \log _ { 4 } ( x + 1 )
C) f(x)=log4(x1)f ( x ) = \log _ { 4 } ( x - 1 )
D) f(x)=log4x+1f ( x ) = \log _ { 4 } x + 1
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69
The graph of a logarithmic function is given. Select the function for the graph from the options.
<strong>The graph of a logarithmic function is given. Select the function for the graph from the options. </strong> A) f ( x ) = \log _ { 3 } ( x + 2 ) B) f ( x ) = \log _ { 3 } x C) f ( x ) = \log _ { 3 } ( x - 2 ) D) f ( x ) = \log _ { 3 } x + 2

A) f(x)=log3(x+2)f ( x ) = \log _ { 3 } ( x + 2 )
B) f(x)=log3xf ( x ) = \log _ { 3 } x
C) f(x)=log3(x2)f ( x ) = \log _ { 3 } ( x - 2 )
D) f(x)=log3x+2f ( x ) = \log _ { 3 } x + 2
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70
Evaluate the expression without using a calculator.
log313\log _ { 3 } \frac { 1 } { \sqrt { 3 } }

A) 12- \frac { 1 } { 2 }
B) 12\frac { 1 } { 2 }
C) 13\frac { 1 } { 3 }
D) 13- \frac { 1 } { 3 }
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71
Evaluate the expression without using a calculator.
log55\log _ { 5 } \sqrt { 5 }

A) 12\frac { 1 } { 2 }
B) 5
C) 15\frac { 1 } { 5 }
D) 1
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72
Graph the function.
Use the graph of log2 x to obtain the graph of f(x) = -2 log2 x. <strong>Graph the function. Use the graph of log2 x to obtain the graph of f(x) = -2 log2 x. </strong> A) B) C) D)

A)
<strong>Graph the function. Use the graph of log2 x to obtain the graph of f(x) = -2 log2 x. </strong> A) B) C) D)
B)
<strong>Graph the function. Use the graph of log2 x to obtain the graph of f(x) = -2 log2 x. </strong> A) B) C) D)
C)
<strong>Graph the function. Use the graph of log2 x to obtain the graph of f(x) = -2 log2 x. </strong> A) B) C) D)
D)
<strong>Graph the function. Use the graph of log2 x to obtain the graph of f(x) = -2 log2 x. </strong> A) B) C) D)
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73
The graph of a logarithmic function is given. Select the function for the graph from the options.
<strong>The graph of a logarithmic function is given. Select the function for the graph from the options. </strong> A) f ( x ) = 1 - \log _ { 4 } x B) f ( x ) = \log _ { 4 } ( - x ) C) f ( x ) = - \log _ { 4 } x D) f ( x ) = \log _ { 4 } x

A) f(x)=1log4xf ( x ) = 1 - \log _ { 4 } x
B) f(x)=log4(x)f ( x ) = \log _ { 4 } ( - x )
C) f(x)=log4xf ( x ) = - \log _ { 4 } x
D) f(x)=log4xf ( x ) = \log _ { 4 } x
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74
The graph of a logarithmic function is given. Select the function for the graph from the options.
<strong>The graph of a logarithmic function is given. Select the function for the graph from the options. </strong> A) f ( x ) = \log _ { 4 } x - 2 B) f ( x ) = \log _ { 4 } x C) f ( x ) = \log _ { 4 } ( x + 2 ) D) f ( x ) = \log _ { 4 } ( x - 2 )

A) f(x)=log4x2f ( x ) = \log _ { 4 } x - 2
B) f(x)=log4xf ( x ) = \log _ { 4 } x
C) f(x)=log4(x+2)f ( x ) = \log _ { 4 } ( x + 2 )
D) f(x)=log4(x2)f ( x ) = \log _ { 4 } ( x - 2 )
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75
Evaluate the expression without using a calculator.
log101000\log _ { 10 } 1000

A) 3
B) 30
C) 11000\frac { 1 } { 1000 }
D) 3- 3
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76
Evaluate the expression without using a calculator.
log644\log _ { 64 } 4

A) 13\frac { 1 } { 3 }
B) 12
C) 3
D) 1
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77
Evaluate the expression without using a calculator.
log5625\log _ { 5 } 625

A) 4
B) 625
C) 20
D) 5
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78
Evaluate the expression without using a calculator.
3log318{ } _ { 3 } \log _ { 3 } 18

A) 18
B) 3
C) 21
D) log318\log _ { 3 } 18
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79
Evaluate the expression without using a calculator.
log111\log _ { 11 } 1

A) 0
B) 11
C) 111\frac { 1 } { 11 }
D) 1
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80
The graph of a logarithmic function is given. Select the function for the graph from the options.
<strong>The graph of a logarithmic function is given. Select the function for the graph from the options. </strong> A) f ( x ) = - \log _ { 4 } x B) f ( x ) = \log _ { 4 } ( - x ) C) f ( x ) = 1 - \log _ { 4 } x D) f ( x ) = \log _ { 4 } x

A) f(x)=log4xf ( x ) = - \log _ { 4 } x
B) f(x)=log4(x)f ( x ) = \log _ { 4 } ( - x )
C) f(x)=1log4xf ( x ) = 1 - \log _ { 4 } x
D) f(x)=log4xf ( x ) = \log _ { 4 } x
Unlock Deck
Unlock for access to all 270 flashcards in this deck.
Unlock Deck
k this deck
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Unlock Deck
Unlock for access to all 270 flashcards in this deck.
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