Exam 5: Exponential-And-Logarithmic-Functions

Use the properties of logarithms to expand the expression as a sum, difference, and/or constant multiple of logarithms.(Assume all variables are positive.) Log 5x⁴y

(Multiple Choice)

4.8/5

(31)

Question 121

Let Q represent a mass of radioactive plutonium (in grams), whose half life is 24,100 years.The quantity of plutonium present after t years is .Determine the quantity present after 67,000 years.Round your answer to one decimal place.

(Multiple Choice)

4.8/5

(41)

Question 122

Write the logarithmic equation in exponential form.

(Multiple Choice)

4.9/5

(34)

Question 123

Rewrite the logarithm as a ratio of natural logarithms. Log_1/5 x

(Multiple Choice)

4.8/5

(32)

Question 124

$3000 is invested in an account at interest rate r, compounded continuously.Find the time required for the amount to triple.(Approximate the result to two decimal places.)

(Multiple Choice)

4.9/5

(37)

Question 125

The population P of a culture of bacteria is described by the equation , where t is the time, in hours, relative to the time at which the population was 1300.What was the population at hours?

(Multiple Choice)

4.8/5

(30)

Question 126

Use a graphing utility to determine which graph below is the graph of the function.

(Multiple Choice)

4.9/5

(33)

Question 127

Use the properties of logarithms to expand the expression as a sum, difference, and/or constant multiple of logarithms.(Assume all variables are positive.) Log₃ 9x

(Multiple Choice)

4.8/5

(51)

Question 128

Evaluate the logarithm using the change-of-base formula.Round your result to three decimal places. Log₂ 7

(Multiple Choice)

4.8/5

(28)

Question 129

Solve the logarithmic equation algebraically.Approximate the result to three decimal places.

(Multiple Choice)

4.9/5

(26)

Question 130

If $1 is invested in an account over a 10-year period, the amount in the account, where t represents the time in years, is given by depending on whether the account pays simple interest at or continuous compound interest at 7%.Graph each function on the same set of axes.Which grows at a higher rate?

(Multiple Choice)

4.9/5

(27)

Question 131

Identify the value of the function at .Round to 3 decimal places.

(Multiple Choice)

4.9/5

(34)

Question 132

Determine whether or not is a solution to .

(Multiple Choice)

4.7/5

(28)

Question 133

Select the graph of the exponential function.

(Multiple Choice)

4.8/5

(40)

Question 134

Rewrite the logarithm as a ratio of natural logarithms. Log_3.1 x

(Multiple Choice)

4.9/5

(37)

Question 135

Evaluate the function at the indicated value of x.Round your result to three decimal places. Function Value

(Multiple Choice)

4.9/5

(34)

Question 136

Write the exponential equation in logarithmic form.

(Multiple Choice)

4.8/5

(37)

Question 137

Evaluate the function at the indicated value of x.Round your result to three decimal places. Function Value

(Multiple Choice)

4.9/5

(41)

Question 138

Solve the equation for x using the One-to-One Property.

(Multiple Choice)

4.8/5

(40)

Question 139

Select the graph of the function.

(Multiple Choice)

4.8/5

(35)

Question 140

Showing 121 - 140 of 261

Use the properties of logarithms to expand the expression as a sum, difference, and/or constant multiple of logarithms.(Assume all variables are positive.) Log 5x⁴y

Let Q represent a mass of radioactive plutonium (in grams), whose half life is 24,100 years.The quantity of plutonium present after t years is .Determine the quantity present after 67,000 years.Round your answer to one decimal place.

Write the logarithmic equation in exponential form.

Rewrite the logarithm as a ratio of natural logarithms. Log_1/5 x

$3000 is invested in an account at interest rate r, compounded continuously.Find the time required for the amount to triple.(Approximate the result to two decimal places.)

The population P of a culture of bacteria is described by the equation , where t is the time, in hours, relative to the time at which the population was 1300.What was the population at hours?

Use a graphing utility to determine which graph below is the graph of the function.

Use the properties of logarithms to expand the expression as a sum, difference, and/or constant multiple of logarithms.(Assume all variables are positive.) Log₃ 9x

Evaluate the logarithm using the change-of-base formula.Round your result to three decimal places. Log₂ 7

Solve the logarithmic equation algebraically.Approximate the result to three decimal places.

If $1 is invested in an account over a 10-year period, the amount in the account, where t represents the time in years, is given by depending on whether the account pays simple interest at or continuous compound interest at 7%.Graph each function on the same set of axes.Which grows at a higher rate?

Identify the value of the function at .Round to 3 decimal places.

Determine whether or not is a solution to .

Select the graph of the exponential function.

Rewrite the logarithm as a ratio of natural logarithms. Log_3.1 x

Evaluate the function at the indicated value of x.Round your result to three decimal places. Function Value

Write the exponential equation in logarithmic form.

Evaluate the function at the indicated value of x.Round your result to three decimal places. Function Value

Solve the equation for x using the One-to-One Property.

Select the graph of the function.

Trigonometry

Analytic-Trigonometry

Additional-Topics-In-Trigonometry

Complex-Numbers

Topics-In-Analytic-Geometry

Prerequisites

Filters

Exam 5: Exponential-And-Logarithmic-Functions

Use the properties of logarithms to expand the expression as a sum, difference, and/or constant multiple of logarithms.(Assume all variables are positive.) ​ Log 5x4y ​

Let Q represent a mass of radioactive plutonium (in grams), whose half life is 24,100 years.The quantity of plutonium present after t years is .Determine the quantity present after 67,000 years.Round your answer to one decimal place. ​

Write the logarithmic equation in exponential form. ​ ​

Rewrite the logarithm as a ratio of natural logarithms. ​ Log1/5 x ​

$3000 is invested in an account at interest rate r, compounded continuously.Find the time required for the amount to triple.(Approximate the result to two decimal places.) ​ ​

The population P of a culture of bacteria is described by the equation , where t is the time, in hours, relative to the time at which the population was 1300.What was the population at hours? ​

Use a graphing utility to determine which graph below is the graph of the function. ​ ​ ​

Use the properties of logarithms to expand the expression as a sum, difference, and/or constant multiple of logarithms.(Assume all variables are positive.) ​ Log3 9x ​

Evaluate the logarithm using the change-of-base formula.Round your result to three decimal places. ​ Log2 7 ​

Solve the logarithmic equation algebraically.Approximate the result to three decimal places. ​ ​

Identify the value of the function at .Round to 3 decimal places.

Determine whether or not is a solution to .

Select the graph of the exponential function. ​ ​

Rewrite the logarithm as a ratio of natural logarithms. ​ Log3.1 x ​

Evaluate the function at the indicated value of x.Round your result to three decimal places. ​ Function Value ​

Write the exponential equation in logarithmic form. ​ ​

Evaluate the function at the indicated value of x.Round your result to three decimal places. ​ Function Value ​

Solve the equation for x using the One-to-One Property.

Select the graph of the function. ​ ​

Trigonometry

Analytic-Trigonometry

Additional-Topics-In-Trigonometry

Complex-Numbers

Topics-In-Analytic-Geometry

Prerequisites

Filters

Use the properties of logarithms to expand the expression as a sum, difference, and/or constant multiple of logarithms.(Assume all variables are positive.) Log 5x⁴y

Let Q represent a mass of radioactive plutonium (in grams), whose half life is 24,100 years.The quantity of plutonium present after t years is .Determine the quantity present after 67,000 years.Round your answer to one decimal place.

Write the logarithmic equation in exponential form.

Rewrite the logarithm as a ratio of natural logarithms. Log_1/5 x

$3000 is invested in an account at interest rate r, compounded continuously.Find the time required for the amount to triple.(Approximate the result to two decimal places.)

The population P of a culture of bacteria is described by the equation , where t is the time, in hours, relative to the time at which the population was 1300.What was the population at hours?

Use a graphing utility to determine which graph below is the graph of the function.

Use the properties of logarithms to expand the expression as a sum, difference, and/or constant multiple of logarithms.(Assume all variables are positive.) Log₃ 9x

Evaluate the logarithm using the change-of-base formula.Round your result to three decimal places. Log₂ 7

Solve the logarithmic equation algebraically.Approximate the result to three decimal places.

Select the graph of the exponential function.

Rewrite the logarithm as a ratio of natural logarithms. Log_3.1 x

Evaluate the function at the indicated value of x.Round your result to three decimal places. Function Value

Write the exponential equation in logarithmic form.

Evaluate the function at the indicated value of x.Round your result to three decimal places. Function Value

Select the graph of the function.