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Deck 4: Exponential and Logarithmic Functions

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Question
Graph the function Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function.<div style=padding-top: 35px> , not by plotting points but by applying your knowledge of the general shape of graphs of the form Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function.<div style=padding-top: 35px> . State the domain, range, and asymptote of the function.
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Question
If $4500 is invested at an interest rate of 6.25% per year, compounded continuously, find the value of the investment after the given number of years.
(a) 3 years
(b) 6 years
(c) 9 years
Question
Graph the function, not by plotting points, but by starting from the graph of Graph the function, not by plotting points, but by starting from the graph of . State the domain, range, and asymptote. <div style=padding-top: 35px> . State the domain, range, and asymptote. Graph the function, not by plotting points, but by starting from the graph of . State the domain, range, and asymptote. <div style=padding-top: 35px>
Question
A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function where is measured in kilograms. Round your answers to three decimal places. a) Find the mass at time . b) How much of the mass remains after 100 days?<div style=padding-top: 35px> where A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function where is measured in kilograms. Round your answers to three decimal places. a) Find the mass at time . b) How much of the mass remains after 100 days?<div style=padding-top: 35px> is measured in kilograms. Round your answers to three decimal places.
a) Find the mass at time A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function where is measured in kilograms. Round your answers to three decimal places. a) Find the mass at time . b) How much of the mass remains after 100 days?<div style=padding-top: 35px> .
b) How much of the mass remains after 100 days?
Question
Sketch the graph of the function Sketch the graph of the function by making a table of values. Use a calculator if necessary.<div style=padding-top: 35px> by making a table of values. Use a calculator if necessary.
Question
If If , show that .<div style=padding-top: 35px> , show that If , show that .<div style=padding-top: 35px> .
Question
Graph the function, not by plotting points, but by starting from the graph of Graph the function, not by plotting points, but by starting from the graph of . State the domain, range, and asymptote. <div style=padding-top: 35px> . State the domain, range, and asymptote. Graph the function, not by plotting points, but by starting from the graph of . State the domain, range, and asymptote. <div style=padding-top: 35px>
Question
If $2500 is invested at an interest rate of 6.25% per year, compounded continuously, find the value of the investment after the given number of years.
(a) 3 years
(b) 6 years
(c) 9 years
Question
Graph the function Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function. <div style=padding-top: 35px> , not by plotting points but by applying your knowledge of the general shape of graphs of the form Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function. <div style=padding-top: 35px> . State the domain, range, and asymptote of the function. Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function. <div style=padding-top: 35px>
Question
Sketch the graph of the function Sketch the graph of the function by making a table of values. Use a calculator if necessary.<div style=padding-top: 35px> by making a table of values. Use a calculator if necessary.
Question
Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals. Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals. <div style=padding-top: 35px>
Question
Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals. Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals. <div style=padding-top: 35px>
Question
Graph the function Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function. <div style=padding-top: 35px> , not by plotting points but by applying your knowledge of the general shape of graphs of the form Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function. <div style=padding-top: 35px> . State the domain, range, and asymptote of the function. Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function. <div style=padding-top: 35px>
Question
Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals. Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals. <div style=padding-top: 35px>
Question
Find the exponential function whose graph is given. Find the exponential function whose graph is given. <div style=padding-top: 35px>
Question
A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function where is measured in kilograms. Round your answers to three decimal places. a) Find the mass at time . b) How much of the mass remains after 50 days?<div style=padding-top: 35px> where A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function where is measured in kilograms. Round your answers to three decimal places. a) Find the mass at time . b) How much of the mass remains after 50 days?<div style=padding-top: 35px> is measured in kilograms. Round your answers to three decimal places.
a) Find the mass at time A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function where is measured in kilograms. Round your answers to three decimal places. a) Find the mass at time . b) How much of the mass remains after 50 days?<div style=padding-top: 35px> .
b) How much of the mass remains after 50 days?
Question
For the function For the function , ( ), use a graphing calculator to find, correct to two decimal places, (a) the intervals on which the function is increasing or decreasing, and (b) the range of the function.<div style=padding-top: 35px> , ( For the function , ( ), use a graphing calculator to find, correct to two decimal places, (a) the intervals on which the function is increasing or decreasing, and (b) the range of the function.<div style=padding-top: 35px> ), use a graphing calculator to find, correct to two decimal places,
(a) the intervals on which the function is increasing or decreasing, and
(b) the range of the function.
Question
If $10,000 is invested at an interest rate of 5% per year, compounded semiannually, find the value of the investment after the given number of years.
(a) 5 years
(b) 10 years
(c) 15 years
Question
Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals. Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals. <div style=padding-top: 35px>
Question
If $10,000 is invested at an interest rate of 4% per year, compounded semiannually, find the value of the investment after the given number of years.
(a) 5 years
(b) 10 years
(c) 15 years
Question
Use the definition of the logarithmic function to find Use the definition of the logarithmic function to find if .<div style=padding-top: 35px> if Use the definition of the logarithmic function to find if .<div style=padding-top: 35px> .
Question
If $12,000 is invested in an account for which interest is compounded continuously, find the amount of the investment at the end of 12 years for the following interest rates.
(a) 2%
(b) 7%
Question
Evaluate the expression. log749\log _ { \sqrt { 7} } 49

A) 44
B) 77
C) 12\frac { 1 } { 2 }
D) 12- \frac { 1 } { 2 }
E) 14\frac { 1 } { 4 }
Question
If $10,000 is invested in an account at 5% per year, find the amount of the investment at the end of 12 years for the following compounding methods.
(a) Continuously
(b) Daily
Question
Evaluate the expression. log71\log _ { 7 } 1

A) 1- 1
B) 11
C) 33
D) 55
E) 00
Question
Use a calculator to evaluate the expression ln(410)\ln ( 4 - \sqrt { 10 } ) correct to four decimal places.

A) 0.17700.1770
B) 0.76900.7690
C) 0.1771- 0.1771
D) 0.7699- 0.7699
E) 1.776- 1.776
Question
Express the equation log131=0\log _ { 13 } 1 = 0 in exponential form.

A) 131=013 ^ { 1} = 0
B) 013=10 ^ { 13 } = 1
C) 13D=113 ^ { \mathrm { D } } = 1
D) 113=11 ^ { 13 } = 1
E) 131=1313 ^ { 1 } = 13
Question
Express the equation 63=2166 ^ { 3 } = 216 in logarithmic form.

A) log2216=3\log _ { 2 } 216 = 3
B) log3216=6\log _ { 3 } 216 = 6
C) log6216=3\log _ { 6 } 216 = 3
D) log6216=36\log _ { 6 } 216 = 36
E) log636=2\log _ { 6 } 36 = 2
Question
Evaluate the expression. ln(en+1)\ln \left( e ^ { n + 1 } \right)

A) 1- 1
B) π+1\pi + 1
C) ene ^ { n }
D) π\pi
E) ln(x+1)\ln ( x + 1 )
Question
Use the definition of the logarithmic function to find Use the definition of the logarithmic function to find if .<div style=padding-top: 35px> if Use the definition of the logarithmic function to find if .<div style=padding-top: 35px> .
Question
The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by , where is time and is measured in ft/s, to find the following. (a) The initial velocity of the object. (b) The velocity of the object after s and s, if . (c) The object's maximum or terminal velocity, and a graph of the object's velocity.<div style=padding-top: 35px> , where The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by , where is time and is measured in ft/s, to find the following. (a) The initial velocity of the object. (b) The velocity of the object after s and s, if . (c) The object's maximum or terminal velocity, and a graph of the object's velocity.<div style=padding-top: 35px> is time and The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by , where is time and is measured in ft/s, to find the following. (a) The initial velocity of the object. (b) The velocity of the object after s and s, if . (c) The object's maximum or terminal velocity, and a graph of the object's velocity.<div style=padding-top: 35px> is measured in ft/s, to find the following.
(a) The initial velocity of the object.
(b) The velocity of the object after The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by , where is time and is measured in ft/s, to find the following. (a) The initial velocity of the object. (b) The velocity of the object after s and s, if . (c) The object's maximum or terminal velocity, and a graph of the object's velocity.<div style=padding-top: 35px> s and
The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by , where is time and is measured in ft/s, to find the following. (a) The initial velocity of the object. (b) The velocity of the object after s and s, if . (c) The object's maximum or terminal velocity, and a graph of the object's velocity.<div style=padding-top: 35px> s, if
The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by , where is time and is measured in ft/s, to find the following. (a) The initial velocity of the object. (b) The velocity of the object after s and s, if . (c) The object's maximum or terminal velocity, and a graph of the object's velocity.<div style=padding-top: 35px> .
(c) The object's maximum or terminal velocity, and a graph of the object's velocity.
Question
Evaluate the expression. log4256\log _ { 4 } 256

A) 33
B) 44
C) 55
D) 125125
E) 625 
Question
If $6000 is invested in an account for which interest is compounded continuously, find the amount of the investment at the end of 12 years for the following interest rates.
(a) 2%
(b) 7%
Question
Use a calculator to evaluate the expression log0.5\log 0.5 \text {, } to four decimal places.

A) 0.2241- 0.2241
B) 0.1042- 0.1042
C) 0.0314- 0.0314
D) 0.9421- 0.9421
E) 0.3010- 0.3010
Question
Use a calculator to evaluate the expression log13\log 13 to four decimal places.

A) 1.24651.2465
B) 1.54931.5493
C) 1.64891.6489
D) 1.99541.9954
E) 1.11391.1139
Question
The height The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level.<div style=padding-top: 35px> from ground level to a hanging cable suspended between two utility poles can be described by the function The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level.<div style=padding-top: 35px> , where The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level.<div style=padding-top: 35px> is the horizontal distance in feet, measured from the origin, and The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level.<div style=padding-top: 35px> is the lowest point of the hanging cable. The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level.<div style=padding-top: 35px>
(a) Find the height of a cable, correct to two decimal places, The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level.<div style=padding-top: 35px> feet to the right of its origin and its lowest point
The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level.<div style=padding-top: 35px> feet above ground level.
(b) Find the height of a cable, correct to two decimal places, The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level.<div style=padding-top: 35px> feet to the left of its origin and its lowest point
The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level.<div style=padding-top: 35px> feet above ground level.
Question
Evaluate the expression. <strong>Evaluate the expression. </strong> A) 2 B) \ln ( 2 ) C) \ln \left( \frac { 1 } { 2 } \right) D) 2 e E) e ^ { 2 }   <div style=padding-top: 35px>

A) 22
B) ln(2)\ln ( 2 )
C) ln(12)\ln \left( \frac { 1 } { 2 } \right)
D) 2e2 e
E) e2e ^ { 2 }
Question
Use the definition of the logarithmic function to find Use the definition of the logarithmic function to find if .<div style=padding-top: 35px> if Use the definition of the logarithmic function to find if .<div style=padding-top: 35px> .
Question
Express the equation log328=35\log _ { 32 } 8 = \frac { 3 } { 5 } in exponential form.

A) 35=83 ^ { 5 } = 8
B) 232=16\frac { 2 ^ { 3 } } { 2 } = 16
C) 8=328 = 3 ^ { 2 }
D) 323/5=832 ^ { 3 / 5 } = 8
E) 85/3=328 ^ { 5 / 3 } = 32
Question
Use a calculator to evaluate the expression log10(45)\log _ { 10 } \left( \frac { 4 } { 5 } \right) correct to four decimal places.

A) 0.09700.0970
B) 0.2231- 0.2231
C) 0.12040.1204
D) 0.0969- 0.0969
E) 0.1204- 0.1204
Question
The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by Find the age of an object if the amount D of carbon-14 that remains in the object is 85% of the original amount .<div style=padding-top: 35px> is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by Find the age of an object if the amount D of carbon-14 that remains in the object is 85% of the original amount .<div style=padding-top: 35px> Find the age of an object if the amount D of carbon-14 that remains in the object is 85% of the original amount The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by Find the age of an object if the amount D of carbon-14 that remains in the object is 85% of the original amount .<div style=padding-top: 35px> .
Question
Use the Laws of Logarithms to rewrite the expression Use the Laws of Logarithms to rewrite the expression in a form with no logarithm of a product, quotient, root, or powers.<div style=padding-top: 35px> in a form with no logarithm of a product, quotient, root, or powers.
Question
Use the Laws of Logarithms to rewrite the expression Use the Laws of Logarithms to rewrite the expression in a form with no logarithm of a product, quotient, root, or powers.  <div style=padding-top: 35px> in a form with no logarithm of a product, quotient, root, or powers.  
Question
Use the Laws of Logarithms to rewrite log11103\log _ { 11 } \sqrt [ 3 ] { 10 } in a form with no logarithms of products, quotients, or powers.

A) 111log310\frac { 1 } { 11 } \log _ { 3 } 10
B) log1110log113\log _ { 11 } 10 - \log _ { 11 } 3
C) log11103\sqrt [ 3 ] { \log _ { 11 } 10 }
D) 13log1110\frac { 1 } { 3 } \log _ { 11 } 10
E) 13log13\frac { 1 } { 3 } \log _ { 1 } 3
Question
Evaluate the expression. log123+log1248\log _ { 12 } 3 + \log _ { 12 } 48

A) 11
B) 22
C) 33
D) 44
E) 55
Question
A certain strain of bacteria divides every three hours. If a colony is started with 50 bacteria, then the time t (in hours) required for the colony to grow to N bacteria is given by A certain strain of bacteria divides every three hours. If a colony is started with 50 bacteria, then the time t (in hours) required for the colony to grow to N bacteria is given by Find the time required for the colony to grow to five million bacteria.<div style=padding-top: 35px> Find the time required for the colony to grow to five million bacteria.
Question
Evaluate the expression. log5625log5125\log _ {5 } 625 - \log _ { 5 } 125

A) 11
B) 22
C) 33
D) 3- 3
E) 1- 1
Question
A certain strain of bacteria divides every three hours. If a colony is started with 50 bacteria, then the time t (in hours) required for the colony to grow to N bacteria is given by A certain strain of bacteria divides every three hours. If a colony is started with 50 bacteria, then the time t (in hours) required for the colony to grow to N bacteria is given by Find the time required for the colony to grow to two million bacteria.<div style=padding-top: 35px> Find the time required for the colony to grow to two million bacteria.
Question
Use the Laws of Logarithms to rewrite the expression Use the Laws of Logarithms to rewrite the expression in a form with no logarithm of a product, quotient, root, or powers.  <div style=padding-top: 35px> in a form with no logarithm of a product, quotient, root, or powers.  
Question
Evaluate the expression. log0.0001\log \sqrt { 0.0001 }

A) 1- 1
B) 22
C) 2- 2
D) 12- \frac { 1 } { 2 }
E) 13\frac { 1 } { 3 }
Question
Evaluate the expression. Evaluate the expression.  <div style=padding-top: 35px>
Question
Evaluate the expression. log2192log23\log _ { 2 } 192 - \log _ { 2 } 3

A) 33
B) 44
C) 55
D) 66
E) 77
Question
Graph the function Graph the function , not by plotting points but by applying your knowledge of the shape of the log function. State domain, range, and asymptote.  <div style=padding-top: 35px> , not by plotting points but by applying your knowledge of the shape of the log function. State domain, range, and asymptote.  
Question
The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by Find the age of an object if the amount D of carbon-14 that remains in the object is 50% of the original amount .<div style=padding-top: 35px> is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by Find the age of an object if the amount D of carbon-14 that remains in the object is 50% of the original amount .<div style=padding-top: 35px> Find the age of an object if the amount D of carbon-14 that remains in the object is 50% of the original amount The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by Find the age of an object if the amount D of carbon-14 that remains in the object is 50% of the original amount .<div style=padding-top: 35px> .
Question
The time required to double the amount of an investment at an interest rate r compounded continuously is given by The time required to double the amount of an investment at an interest rate r compounded continuously is given by Find the time required to double an investment at 2%, 3%, and 4%.<div style=padding-top: 35px> Find the time required to double an investment at 2%, 3%, and 4%.
Question
(a)Find the inverse function. (b) What is the domain of the inverse function?
(a)Find the inverse function. (b) What is the domain of the inverse function? <div style=padding-top: 35px>
Question
Use the Laws of Logarithms to rewrite the expression Use the Laws of Logarithms to rewrite the expression in a form with no logarithm of a product, quotient, root, or powers.  <div style=padding-top: 35px> in a form with no logarithm of a product, quotient, root, or powers.  
Question
The time required to double the amount of an investment at an interest rate r compounded continuously is given by The time required to double the amount of an investment at an interest rate r compounded continuously is given by Find the time required to double an investment at 4%, 5%, and 6%.<div style=padding-top: 35px> Find the time required to double an investment at 4%, 5%, and 6%.
Question
Graph the function Graph the function not by plotting points but by applying your knowledge of the shape of the log function. State domain, range, and asymptote.<div style=padding-top: 35px> not by plotting points but by applying your knowledge of the shape of the log function. State domain, range, and asymptote.
Question
Use the Laws of Logarithms to rewrite ln(e/x)\ln ( e / x ) in a form with no logarithms of products, quotients, or powers.

A) 2+2lnx2 + 2 \ln x
B) 1lnx1 - \ln x
C) elnxe \ln x
D) lnx- \ln x
E) 1+lnx1 + \ln x
Question
Use the Change of Base Formula and a calculator to evaluate the logarithm, correct to six decimal places. Use either natural or common logarithms. Use the Change of Base Formula and a calculator to evaluate the logarithm, correct to six decimal places. Use either natural or common logarithms. <div style=padding-top: 35px>
Question
For a rat learning to run a maze, the learning curve is given by For a rat learning to run a maze, the learning curve is given by , where is the time it takes to run the maze in seconds after days. Use a graphing calculator or computer to graph of the learning curve and determine after how many days the rat is able to run the maze in seconds.<div style=padding-top: 35px> , where For a rat learning to run a maze, the learning curve is given by , where is the time it takes to run the maze in seconds after days. Use a graphing calculator or computer to graph of the learning curve and determine after how many days the rat is able to run the maze in seconds.<div style=padding-top: 35px> is the time it takes to run the maze in seconds after For a rat learning to run a maze, the learning curve is given by , where is the time it takes to run the maze in seconds after days. Use a graphing calculator or computer to graph of the learning curve and determine after how many days the rat is able to run the maze in seconds.<div style=padding-top: 35px> days. Use a graphing calculator or computer to graph of the learning curve and determine after how many days the rat is able to run the maze in For a rat learning to run a maze, the learning curve is given by , where is the time it takes to run the maze in seconds after days. Use a graphing calculator or computer to graph of the learning curve and determine after how many days the rat is able to run the maze in seconds.<div style=padding-top: 35px> seconds.
Question
Use the Change of Base Formula and a calculator to evaluate the logarithm, correct to six decimal places. Use either natural or common logarithms. Use the Change of Base Formula and a calculator to evaluate the logarithm, correct to six decimal places. Use either natural or common logarithms. <div style=padding-top: 35px>
Question
Assume that the rat population in a certain urban area behaves according to the logistic growth function Assume that the rat population in a certain urban area behaves according to the logistic growth function where is the number of rats in the hundreds, and is measured in months.(a) Find the initial rat population.(b) Find the rat population after month.(c) After how many months will the rat population triple from its initial size?<div style=padding-top: 35px> where Assume that the rat population in a certain urban area behaves according to the logistic growth function where is the number of rats in the hundreds, and is measured in months.(a) Find the initial rat population.(b) Find the rat population after month.(c) After how many months will the rat population triple from its initial size?<div style=padding-top: 35px> is the number of rats in the hundreds, and Assume that the rat population in a certain urban area behaves according to the logistic growth function where is the number of rats in the hundreds, and is measured in months.(a) Find the initial rat population.(b) Find the rat population after month.(c) After how many months will the rat population triple from its initial size?<div style=padding-top: 35px> is measured in months.(a) Find the initial rat population.(b) Find the rat population after Assume that the rat population in a certain urban area behaves according to the logistic growth function where is the number of rats in the hundreds, and is measured in months.(a) Find the initial rat population.(b) Find the rat population after month.(c) After how many months will the rat population triple from its initial size?<div style=padding-top: 35px> month.(c) After how many months will the rat population triple from its initial size?
Question
Rudy wants to invest $1000\$ 1000 in savings certificates that bear an interest rate of 7.5%7.5 \% compounded semiannually. How long will it take for the amount to be $1500?\$ 1500 ?

A) 2.542.54 yrs
B) 3.083.08 yrs
C) 5.515.51 yrs
D) 9.259.25 yrs
E) 10.3610.36 yrs 
Question
Find the solution of the equation (35)7x=12\left( \frac { 3 } { 5 } \right) ^ { 7 x } = 12 correct to four decimal places.

A) 2.4322- 2.4322
B) 3.0501- 3.0501
C) 2.7593- 2.7593
D) 2.1175- 2.1175
E) 1.7659- 1.7659
Question
Find the solution of the equation 3x+2=52x3 ^ { x + 2 } = 5 ^ { 2 x } correct to four decimal places.

A) 0.0365- 0.0365
B) 0.02650.0265
C) 0.37850.3785
D) 0.39320.3932
E) 1.03631.0363
Question
A 16-g sample of radioactive iodine decays in such a way that the mass remaining after t days is given by A 16-g sample of radioactive iodine decays in such a way that the mass remaining after t days is given by , where is measured in grams. After how many days is there only 4 g remaining?<div style=padding-top: 35px> , where A 16-g sample of radioactive iodine decays in such a way that the mass remaining after t days is given by , where is measured in grams. After how many days is there only 4 g remaining?<div style=padding-top: 35px> is measured in grams. After how many days is there only 4 g remaining?
Question
Solve the logarithmic equation Solve the logarithmic equation for .<div style=padding-top: 35px> for Solve the logarithmic equation for .<div style=padding-top: 35px> .
Question
Use the change of base formula and a calculator to evaluate Use the change of base formula and a calculator to evaluate correct to six decimal places.<div style=padding-top: 35px> correct to six decimal places.
Question
Use a graphing calculator to find all solutions of the equation Use a graphing calculator to find all solutions of the equation correct to two decimal places.<div style=padding-top: 35px> correct to two decimal places.
Question
Find the solution of the equation 2x/2=0.012 ^ { x/2 } = 0.01 correct to four decimal places.

A) 53.1508- 53.1508
B) 29.0743- 29.0743
C) 25.1508- 25.1508
D) 19.0828- 19.0828
E) 7.0523- 7.0523
Question
Solve the equation Solve the equation .<div style=padding-top: 35px> .
Question
Show that Show that . <div style=padding-top: 35px> . 
Question
Use the change of base formula and a calculator to evaluate Use the change of base formula and a calculator to evaluate correct to six decimal places.<div style=padding-top: 35px> correct to six decimal places.
Question
Solve the equation Solve the equation .<div style=padding-top: 35px> .
Question
A sum of $1250 was invested for 8 years, and the interest compounded quarterly. If this sum amounted to A sum of $1250 was invested for 8 years, and the interest compounded quarterly. If this sum amounted to in the given time, what was the interest rate?<div style=padding-top: 35px> in the given time, what was the interest rate?
Question
How long will it take for an investment of How long will it take for an investment of to double in value if the interest rate is per year compounded continuously?<div style=padding-top: 35px> to double in value if the interest rate is How long will it take for an investment of to double in value if the interest rate is per year compounded continuously?<div style=padding-top: 35px> per year compounded continuously?
Question
A 12-g sample of radioactive iodine decays in such a way that the mass remaining after t days is given by A 12-g sample of radioactive iodine decays in such a way that the mass remaining after t days is given by , where is measured in grams. After how many days is there only 4 g remaining?<div style=padding-top: 35px> , where A 12-g sample of radioactive iodine decays in such a way that the mass remaining after t days is given by , where is measured in grams. After how many days is there only 4 g remaining?<div style=padding-top: 35px> is measured in grams. After how many days is there only 4 g remaining?
Question
Find the solution of the exponential equation Find the solution of the exponential equation , correct to four decimal places.<div style=padding-top: 35px> , correct to four decimal places.
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Deck 4: Exponential and Logarithmic Functions
1
Graph the function Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function. , not by plotting points but by applying your knowledge of the general shape of graphs of the form Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function. . State the domain, range, and asymptote of the function.
Domain Domain , Range , Asymptote , Range Domain , Range , Asymptote , Asymptote Domain , Range , Asymptote Domain , Range , Asymptote
2
If $4500 is invested at an interest rate of 6.25% per year, compounded continuously, find the value of the investment after the given number of years.
(a) 3 years
(b) 6 years
(c) 9 years
a) $5428.04 (b) $6547.46 (c) $7897.75
3
Graph the function, not by plotting points, but by starting from the graph of Graph the function, not by plotting points, but by starting from the graph of . State the domain, range, and asymptote. . State the domain, range, and asymptote. Graph the function, not by plotting points, but by starting from the graph of . State the domain, range, and asymptote.
Domain: Domain: ; Range: ; Asymptote: ; Range: Domain: ; Range: ; Asymptote: ; Asymptote: Domain: ; Range: ; Asymptote: Domain: ; Range: ; Asymptote:
4
A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function where is measured in kilograms. Round your answers to three decimal places. a) Find the mass at time . b) How much of the mass remains after 100 days? where A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function where is measured in kilograms. Round your answers to three decimal places. a) Find the mass at time . b) How much of the mass remains after 100 days? is measured in kilograms. Round your answers to three decimal places.
a) Find the mass at time A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function where is measured in kilograms. Round your answers to three decimal places. a) Find the mass at time . b) How much of the mass remains after 100 days? .
b) How much of the mass remains after 100 days?
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5
Sketch the graph of the function Sketch the graph of the function by making a table of values. Use a calculator if necessary. by making a table of values. Use a calculator if necessary.
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6
If If , show that . , show that If , show that . .
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7
Graph the function, not by plotting points, but by starting from the graph of Graph the function, not by plotting points, but by starting from the graph of . State the domain, range, and asymptote. . State the domain, range, and asymptote. Graph the function, not by plotting points, but by starting from the graph of . State the domain, range, and asymptote.
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8
If $2500 is invested at an interest rate of 6.25% per year, compounded continuously, find the value of the investment after the given number of years.
(a) 3 years
(b) 6 years
(c) 9 years
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9
Graph the function Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function. , not by plotting points but by applying your knowledge of the general shape of graphs of the form Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function. . State the domain, range, and asymptote of the function. Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function.
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10
Sketch the graph of the function Sketch the graph of the function by making a table of values. Use a calculator if necessary. by making a table of values. Use a calculator if necessary.
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11
Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals. Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals.
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12
Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals. Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals.
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13
Graph the function Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function. , not by plotting points but by applying your knowledge of the general shape of graphs of the form Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function. . State the domain, range, and asymptote of the function. Graph the function , not by plotting points but by applying your knowledge of the general shape of graphs of the form . State the domain, range, and asymptote of the function.
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14
Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals. Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals.
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15
Find the exponential function whose graph is given. Find the exponential function whose graph is given.
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16
A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function where is measured in kilograms. Round your answers to three decimal places. a) Find the mass at time . b) How much of the mass remains after 50 days? where A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function where is measured in kilograms. Round your answers to three decimal places. a) Find the mass at time . b) How much of the mass remains after 50 days? is measured in kilograms. Round your answers to three decimal places.
a) Find the mass at time A radioactive substance decays in such a way that the amount of mass remaining after t days is given by the function where is measured in kilograms. Round your answers to three decimal places. a) Find the mass at time . b) How much of the mass remains after 50 days? .
b) How much of the mass remains after 50 days?
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17
For the function For the function , ( ), use a graphing calculator to find, correct to two decimal places, (a) the intervals on which the function is increasing or decreasing, and (b) the range of the function. , ( For the function , ( ), use a graphing calculator to find, correct to two decimal places, (a) the intervals on which the function is increasing or decreasing, and (b) the range of the function. ), use a graphing calculator to find, correct to two decimal places,
(a) the intervals on which the function is increasing or decreasing, and
(b) the range of the function.
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18
If $10,000 is invested at an interest rate of 5% per year, compounded semiannually, find the value of the investment after the given number of years.
(a) 5 years
(b) 10 years
(c) 15 years
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19
Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals. Use a calculator to evaluate the function at the indicated values. Round your answers to three decimals.
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20
If $10,000 is invested at an interest rate of 4% per year, compounded semiannually, find the value of the investment after the given number of years.
(a) 5 years
(b) 10 years
(c) 15 years
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21
Use the definition of the logarithmic function to find Use the definition of the logarithmic function to find if . if Use the definition of the logarithmic function to find if . .
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22
If $12,000 is invested in an account for which interest is compounded continuously, find the amount of the investment at the end of 12 years for the following interest rates.
(a) 2%
(b) 7%
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23
Evaluate the expression. log749\log _ { \sqrt { 7} } 49

A) 44
B) 77
C) 12\frac { 1 } { 2 }
D) 12- \frac { 1 } { 2 }
E) 14\frac { 1 } { 4 }
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24
If $10,000 is invested in an account at 5% per year, find the amount of the investment at the end of 12 years for the following compounding methods.
(a) Continuously
(b) Daily
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25
Evaluate the expression. log71\log _ { 7 } 1

A) 1- 1
B) 11
C) 33
D) 55
E) 00
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26
Use a calculator to evaluate the expression ln(410)\ln ( 4 - \sqrt { 10 } ) correct to four decimal places.

A) 0.17700.1770
B) 0.76900.7690
C) 0.1771- 0.1771
D) 0.7699- 0.7699
E) 1.776- 1.776
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27
Express the equation log131=0\log _ { 13 } 1 = 0 in exponential form.

A) 131=013 ^ { 1} = 0
B) 013=10 ^ { 13 } = 1
C) 13D=113 ^ { \mathrm { D } } = 1
D) 113=11 ^ { 13 } = 1
E) 131=1313 ^ { 1 } = 13
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28
Express the equation 63=2166 ^ { 3 } = 216 in logarithmic form.

A) log2216=3\log _ { 2 } 216 = 3
B) log3216=6\log _ { 3 } 216 = 6
C) log6216=3\log _ { 6 } 216 = 3
D) log6216=36\log _ { 6 } 216 = 36
E) log636=2\log _ { 6 } 36 = 2
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29
Evaluate the expression. ln(en+1)\ln \left( e ^ { n + 1 } \right)

A) 1- 1
B) π+1\pi + 1
C) ene ^ { n }
D) π\pi
E) ln(x+1)\ln ( x + 1 )
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30
Use the definition of the logarithmic function to find Use the definition of the logarithmic function to find if . if Use the definition of the logarithmic function to find if . .
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31
The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by , where is time and is measured in ft/s, to find the following. (a) The initial velocity of the object. (b) The velocity of the object after s and s, if . (c) The object's maximum or terminal velocity, and a graph of the object's velocity. , where The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by , where is time and is measured in ft/s, to find the following. (a) The initial velocity of the object. (b) The velocity of the object after s and s, if . (c) The object's maximum or terminal velocity, and a graph of the object's velocity. is time and The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by , where is time and is measured in ft/s, to find the following. (a) The initial velocity of the object. (b) The velocity of the object after s and s, if . (c) The object's maximum or terminal velocity, and a graph of the object's velocity. is measured in ft/s, to find the following.
(a) The initial velocity of the object.
(b) The velocity of the object after The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by , where is time and is measured in ft/s, to find the following. (a) The initial velocity of the object. (b) The velocity of the object after s and s, if . (c) The object's maximum or terminal velocity, and a graph of the object's velocity. s and
The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by , where is time and is measured in ft/s, to find the following. (a) The initial velocity of the object. (b) The velocity of the object after s and s, if . (c) The object's maximum or terminal velocity, and a graph of the object's velocity. s, if
The air resistance of a free falling object is proportional to its velocity. Use the equation of downward velocity given by , where is time and is measured in ft/s, to find the following. (a) The initial velocity of the object. (b) The velocity of the object after s and s, if . (c) The object's maximum or terminal velocity, and a graph of the object's velocity. .
(c) The object's maximum or terminal velocity, and a graph of the object's velocity.
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32
Evaluate the expression. log4256\log _ { 4 } 256

A) 33
B) 44
C) 55
D) 125125
E) 625 
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33
If $6000 is invested in an account for which interest is compounded continuously, find the amount of the investment at the end of 12 years for the following interest rates.
(a) 2%
(b) 7%
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34
Use a calculator to evaluate the expression log0.5\log 0.5 \text {, } to four decimal places.

A) 0.2241- 0.2241
B) 0.1042- 0.1042
C) 0.0314- 0.0314
D) 0.9421- 0.9421
E) 0.3010- 0.3010
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35
Use a calculator to evaluate the expression log13\log 13 to four decimal places.

A) 1.24651.2465
B) 1.54931.5493
C) 1.64891.6489
D) 1.99541.9954
E) 1.11391.1139
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36
The height The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level. from ground level to a hanging cable suspended between two utility poles can be described by the function The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level. , where The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level. is the horizontal distance in feet, measured from the origin, and The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level. is the lowest point of the hanging cable. The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level.
(a) Find the height of a cable, correct to two decimal places, The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level. feet to the right of its origin and its lowest point
The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level. feet above ground level.
(b) Find the height of a cable, correct to two decimal places, The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level. feet to the left of its origin and its lowest point
The height from ground level to a hanging cable suspended between two utility poles can be described by the function , where is the horizontal distance in feet, measured from the origin, and is the lowest point of the hanging cable. (a) Find the height of a cable, correct to two decimal places, feet to the right of its origin and its lowest point feet above ground level. (b) Find the height of a cable, correct to two decimal places, feet to the left of its origin and its lowest point feet above ground level. feet above ground level.
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37
Evaluate the expression. <strong>Evaluate the expression. </strong> A) 2 B) \ln ( 2 ) C) \ln \left( \frac { 1 } { 2 } \right) D) 2 e E) e ^ { 2 }  

A) 22
B) ln(2)\ln ( 2 )
C) ln(12)\ln \left( \frac { 1 } { 2 } \right)
D) 2e2 e
E) e2e ^ { 2 }
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38
Use the definition of the logarithmic function to find Use the definition of the logarithmic function to find if . if Use the definition of the logarithmic function to find if . .
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39
Express the equation log328=35\log _ { 32 } 8 = \frac { 3 } { 5 } in exponential form.

A) 35=83 ^ { 5 } = 8
B) 232=16\frac { 2 ^ { 3 } } { 2 } = 16
C) 8=328 = 3 ^ { 2 }
D) 323/5=832 ^ { 3 / 5 } = 8
E) 85/3=328 ^ { 5 / 3 } = 32
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40
Use a calculator to evaluate the expression log10(45)\log _ { 10 } \left( \frac { 4 } { 5 } \right) correct to four decimal places.

A) 0.09700.0970
B) 0.2231- 0.2231
C) 0.12040.1204
D) 0.0969- 0.0969
E) 0.1204- 0.1204
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41
The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by Find the age of an object if the amount D of carbon-14 that remains in the object is 85% of the original amount . is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by Find the age of an object if the amount D of carbon-14 that remains in the object is 85% of the original amount . Find the age of an object if the amount D of carbon-14 that remains in the object is 85% of the original amount The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by Find the age of an object if the amount D of carbon-14 that remains in the object is 85% of the original amount . .
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42
Use the Laws of Logarithms to rewrite the expression Use the Laws of Logarithms to rewrite the expression in a form with no logarithm of a product, quotient, root, or powers. in a form with no logarithm of a product, quotient, root, or powers.
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43
Use the Laws of Logarithms to rewrite the expression Use the Laws of Logarithms to rewrite the expression in a form with no logarithm of a product, quotient, root, or powers.   in a form with no logarithm of a product, quotient, root, or powers.  
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44
Use the Laws of Logarithms to rewrite log11103\log _ { 11 } \sqrt [ 3 ] { 10 } in a form with no logarithms of products, quotients, or powers.

A) 111log310\frac { 1 } { 11 } \log _ { 3 } 10
B) log1110log113\log _ { 11 } 10 - \log _ { 11 } 3
C) log11103\sqrt [ 3 ] { \log _ { 11 } 10 }
D) 13log1110\frac { 1 } { 3 } \log _ { 11 } 10
E) 13log13\frac { 1 } { 3 } \log _ { 1 } 3
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45
Evaluate the expression. log123+log1248\log _ { 12 } 3 + \log _ { 12 } 48

A) 11
B) 22
C) 33
D) 44
E) 55
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46
A certain strain of bacteria divides every three hours. If a colony is started with 50 bacteria, then the time t (in hours) required for the colony to grow to N bacteria is given by A certain strain of bacteria divides every three hours. If a colony is started with 50 bacteria, then the time t (in hours) required for the colony to grow to N bacteria is given by Find the time required for the colony to grow to five million bacteria. Find the time required for the colony to grow to five million bacteria.
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47
Evaluate the expression. log5625log5125\log _ {5 } 625 - \log _ { 5 } 125

A) 11
B) 22
C) 33
D) 3- 3
E) 1- 1
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48
A certain strain of bacteria divides every three hours. If a colony is started with 50 bacteria, then the time t (in hours) required for the colony to grow to N bacteria is given by A certain strain of bacteria divides every three hours. If a colony is started with 50 bacteria, then the time t (in hours) required for the colony to grow to N bacteria is given by Find the time required for the colony to grow to two million bacteria. Find the time required for the colony to grow to two million bacteria.
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49
Use the Laws of Logarithms to rewrite the expression Use the Laws of Logarithms to rewrite the expression in a form with no logarithm of a product, quotient, root, or powers.   in a form with no logarithm of a product, quotient, root, or powers.  
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50
Evaluate the expression. log0.0001\log \sqrt { 0.0001 }

A) 1- 1
B) 22
C) 2- 2
D) 12- \frac { 1 } { 2 }
E) 13\frac { 1 } { 3 }
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51
Evaluate the expression. Evaluate the expression.  
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52
Evaluate the expression. log2192log23\log _ { 2 } 192 - \log _ { 2 } 3

A) 33
B) 44
C) 55
D) 66
E) 77
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53
Graph the function Graph the function , not by plotting points but by applying your knowledge of the shape of the log function. State domain, range, and asymptote.   , not by plotting points but by applying your knowledge of the shape of the log function. State domain, range, and asymptote.  
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54
The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by Find the age of an object if the amount D of carbon-14 that remains in the object is 50% of the original amount . is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by Find the age of an object if the amount D of carbon-14 that remains in the object is 50% of the original amount . Find the age of an object if the amount D of carbon-14 that remains in the object is 50% of the original amount The age of an ancient artifact can be determined by the amount of radioactive carbon-14 remaining in it. If is the original amount of carbon-14 and D is the amount remaining, then the artifact's age A (in years) is given by Find the age of an object if the amount D of carbon-14 that remains in the object is 50% of the original amount . .
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55
The time required to double the amount of an investment at an interest rate r compounded continuously is given by The time required to double the amount of an investment at an interest rate r compounded continuously is given by Find the time required to double an investment at 2%, 3%, and 4%. Find the time required to double an investment at 2%, 3%, and 4%.
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56
(a)Find the inverse function. (b) What is the domain of the inverse function?
(a)Find the inverse function. (b) What is the domain of the inverse function?
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57
Use the Laws of Logarithms to rewrite the expression Use the Laws of Logarithms to rewrite the expression in a form with no logarithm of a product, quotient, root, or powers.   in a form with no logarithm of a product, quotient, root, or powers.  
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Unlock for access to all 99 flashcards in this deck.
Unlock Deck
k this deck
58
The time required to double the amount of an investment at an interest rate r compounded continuously is given by The time required to double the amount of an investment at an interest rate r compounded continuously is given by Find the time required to double an investment at 4%, 5%, and 6%. Find the time required to double an investment at 4%, 5%, and 6%.
Unlock Deck
Unlock for access to all 99 flashcards in this deck.
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59
Graph the function Graph the function not by plotting points but by applying your knowledge of the shape of the log function. State domain, range, and asymptote. not by plotting points but by applying your knowledge of the shape of the log function. State domain, range, and asymptote.
Unlock Deck
Unlock for access to all 99 flashcards in this deck.
Unlock Deck
k this deck
60
Use the Laws of Logarithms to rewrite ln(e/x)\ln ( e / x ) in a form with no logarithms of products, quotients, or powers.

A) 2+2lnx2 + 2 \ln x
B) 1lnx1 - \ln x
C) elnxe \ln x
D) lnx- \ln x
E) 1+lnx1 + \ln x
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61
Use the Change of Base Formula and a calculator to evaluate the logarithm, correct to six decimal places. Use either natural or common logarithms. Use the Change of Base Formula and a calculator to evaluate the logarithm, correct to six decimal places. Use either natural or common logarithms.
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62
For a rat learning to run a maze, the learning curve is given by For a rat learning to run a maze, the learning curve is given by , where is the time it takes to run the maze in seconds after days. Use a graphing calculator or computer to graph of the learning curve and determine after how many days the rat is able to run the maze in seconds. , where For a rat learning to run a maze, the learning curve is given by , where is the time it takes to run the maze in seconds after days. Use a graphing calculator or computer to graph of the learning curve and determine after how many days the rat is able to run the maze in seconds. is the time it takes to run the maze in seconds after For a rat learning to run a maze, the learning curve is given by , where is the time it takes to run the maze in seconds after days. Use a graphing calculator or computer to graph of the learning curve and determine after how many days the rat is able to run the maze in seconds. days. Use a graphing calculator or computer to graph of the learning curve and determine after how many days the rat is able to run the maze in For a rat learning to run a maze, the learning curve is given by , where is the time it takes to run the maze in seconds after days. Use a graphing calculator or computer to graph of the learning curve and determine after how many days the rat is able to run the maze in seconds. seconds.
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63
Use the Change of Base Formula and a calculator to evaluate the logarithm, correct to six decimal places. Use either natural or common logarithms. Use the Change of Base Formula and a calculator to evaluate the logarithm, correct to six decimal places. Use either natural or common logarithms.
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64
Assume that the rat population in a certain urban area behaves according to the logistic growth function Assume that the rat population in a certain urban area behaves according to the logistic growth function where is the number of rats in the hundreds, and is measured in months.(a) Find the initial rat population.(b) Find the rat population after month.(c) After how many months will the rat population triple from its initial size? where Assume that the rat population in a certain urban area behaves according to the logistic growth function where is the number of rats in the hundreds, and is measured in months.(a) Find the initial rat population.(b) Find the rat population after month.(c) After how many months will the rat population triple from its initial size? is the number of rats in the hundreds, and Assume that the rat population in a certain urban area behaves according to the logistic growth function where is the number of rats in the hundreds, and is measured in months.(a) Find the initial rat population.(b) Find the rat population after month.(c) After how many months will the rat population triple from its initial size? is measured in months.(a) Find the initial rat population.(b) Find the rat population after Assume that the rat population in a certain urban area behaves according to the logistic growth function where is the number of rats in the hundreds, and is measured in months.(a) Find the initial rat population.(b) Find the rat population after month.(c) After how many months will the rat population triple from its initial size? month.(c) After how many months will the rat population triple from its initial size?
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65
Rudy wants to invest $1000\$ 1000 in savings certificates that bear an interest rate of 7.5%7.5 \% compounded semiannually. How long will it take for the amount to be $1500?\$ 1500 ?

A) 2.542.54 yrs
B) 3.083.08 yrs
C) 5.515.51 yrs
D) 9.259.25 yrs
E) 10.3610.36 yrs 
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66
Find the solution of the equation (35)7x=12\left( \frac { 3 } { 5 } \right) ^ { 7 x } = 12 correct to four decimal places.

A) 2.4322- 2.4322
B) 3.0501- 3.0501
C) 2.7593- 2.7593
D) 2.1175- 2.1175
E) 1.7659- 1.7659
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67
Find the solution of the equation 3x+2=52x3 ^ { x + 2 } = 5 ^ { 2 x } correct to four decimal places.

A) 0.0365- 0.0365
B) 0.02650.0265
C) 0.37850.3785
D) 0.39320.3932
E) 1.03631.0363
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Unlock for access to all 99 flashcards in this deck.
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68
A 16-g sample of radioactive iodine decays in such a way that the mass remaining after t days is given by A 16-g sample of radioactive iodine decays in such a way that the mass remaining after t days is given by , where is measured in grams. After how many days is there only 4 g remaining? , where A 16-g sample of radioactive iodine decays in such a way that the mass remaining after t days is given by , where is measured in grams. After how many days is there only 4 g remaining? is measured in grams. After how many days is there only 4 g remaining?
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69
Solve the logarithmic equation Solve the logarithmic equation for . for Solve the logarithmic equation for . .
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70
Use the change of base formula and a calculator to evaluate Use the change of base formula and a calculator to evaluate correct to six decimal places. correct to six decimal places.
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71
Use a graphing calculator to find all solutions of the equation Use a graphing calculator to find all solutions of the equation correct to two decimal places. correct to two decimal places.
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72
Find the solution of the equation 2x/2=0.012 ^ { x/2 } = 0.01 correct to four decimal places.

A) 53.1508- 53.1508
B) 29.0743- 29.0743
C) 25.1508- 25.1508
D) 19.0828- 19.0828
E) 7.0523- 7.0523
Unlock Deck
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73
Solve the equation Solve the equation . .
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74
Show that Show that .  . 
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75
Use the change of base formula and a calculator to evaluate Use the change of base formula and a calculator to evaluate correct to six decimal places. correct to six decimal places.
Unlock Deck
Unlock for access to all 99 flashcards in this deck.
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76
Solve the equation Solve the equation . .
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77
A sum of $1250 was invested for 8 years, and the interest compounded quarterly. If this sum amounted to A sum of $1250 was invested for 8 years, and the interest compounded quarterly. If this sum amounted to in the given time, what was the interest rate? in the given time, what was the interest rate?
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78
How long will it take for an investment of How long will it take for an investment of to double in value if the interest rate is per year compounded continuously? to double in value if the interest rate is How long will it take for an investment of to double in value if the interest rate is per year compounded continuously? per year compounded continuously?
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79
A 12-g sample of radioactive iodine decays in such a way that the mass remaining after t days is given by A 12-g sample of radioactive iodine decays in such a way that the mass remaining after t days is given by , where is measured in grams. After how many days is there only 4 g remaining? , where A 12-g sample of radioactive iodine decays in such a way that the mass remaining after t days is given by , where is measured in grams. After how many days is there only 4 g remaining? is measured in grams. After how many days is there only 4 g remaining?
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80
Find the solution of the exponential equation Find the solution of the exponential equation , correct to four decimal places. , correct to four decimal places.
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