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DETAILS LARPCALCLIM4 3.2.008. 1. [-/1 Points] Write the logarithmic equation in exponential form. For example, the exponential form of logs 25 = 2 is 52
DETAILS LARPCALCLIM4 3.2.008. 1. [-/1 Points] Write the logarithmic equation in exponential form. For example, the exponential form of logs 25 = 2 is 52 = 25. 1 log9 = -2 812. [I1 Points] DETAILS LARPCALCLIM4 3.2.010. Write the logarithmic equation in exponential form. For example, the exponential form of logs(25) = 2 is 52 = 25. '0932(4) = A S 5 3. [-/1 Points] DETAILS LARPCALCLIM4 3.2.013. Write the exponential equation in logarithmic form. For example, the logarithmic form of 23 = 8 is log2(8) = 3. 2-6 = _ 644. [-/1 Points] DETAILS LARPCALCLIM4 3.2.016.MI. Evaluate the logarithm at the given value of x without using a calculator. Function Value f(x) = 10964(x) X = 45. [-/1 Points] DETAILS LARPCALCLIM4 3.2.017. Evaluate the logarithm at the given value of x without using a calculator. Function Value f(x) = 1092(x) x = 16. [-/1 Points] DETAILS LARPCALCLIM4 3.2.025. Use the properties of logarithms to simplify the expression. log2(2)7. [-/1 Points] DETAILS LARPCALCLIM4 3.2.031. Use the One-to-One Property to solve the equation for x. (Enter your answers as a comma-separated list.) log(11) = log(x2 + 7) X =8. [-/1 Points] DETAILS LARPCALCLIM4 3.2.033. MY NOTES ASK Sketch the graphs of f and g in the same coordinate plane. f(x) = 9*, g(x) = logg x 4 4 2 2 X -10 -8 -6 -4 -2 2 -2 2 6 8 10 4 -2/ -4 -41 -6/ 8 O O -10410 10 8- 6 4 4 -4 -2 2 4 6 8 10 -10 -8 -6 -4 -2 -X -2 2 4 - 2 -4 O O -49. [-/2 Points] DETAILS LARPCALCLIM4 3.2.039. MY NOTES Use the graph of g(x) = log3 x to match the given function with its graph. f(x) = 1093(1 - x) 10 4 10 5 -20 X -15 -10 -5 -10 -5 X 5 10 -5/ O -10 O -104 10 10 5 - X -X -10 -5 5 10 5 10 15 20 -5/ O -10 L O-10 L Describe the relationship between the graphs of f and g. O The graph of f is shifted 1 unit left from the graph of g. O The graph of f is shifted 1 unit up from the graph of g and reflected over the x-axis. O The graph of f is shifted 1 unit right from the graph of g. O The graph of f is shifted 1 unit down from the graph of g and reflected over the y-axis. O The graph of f is shifted 1 unit left from the graph of g and reflected over the y-axis.10. [-/1 Points] DETAILS LARPCALCLIM4 3.2.049. Write the logarithmic equation in exponential form. In = -0.223... 5 O 4 e = -0.223. . . 5 O -4/5 = -0.223. .. O - 0.223. . .e = 4 5 O e-0.223. .. = 4 5 -0.223. .. O 4 = e11. [-/1 Points] DETAILS LARPCALCLIM4 3.2.055. Write the exponential equation in logarithmic form. e -8X = 1 5 O In (5) = e-8 O In () = -8X O log-8(e) = 1 O In(-8x) = 5 O logs(e) = -8x12. [-/1 Points] DETAILS LARPCALCLIM4 3.2.075. Use the One-to-One Property to solve the equation for x. (Enter your answers as a comma-separated list.) In(x + 7) = In 19 X =1. [-12 Points] DETAILS LARPCALCLIM4 3.5.008. Find the missing values assuming continuously compounded interest. (Round your answers to two decimal places.) Initial Annual Time to Amount After Investment % Rate Double 10 Years 2. [-/2 Points] DETAILS LARPCALCLIM4 3.5.011. Find the missing values assuming continuously compounded interest. (Round your answers to two decimal places.) Initial Annual Time to Amount After Investment % Rate Double 10 Years 6.9% yr $14,0003. [I4 Points] DETAILS LARPCALCLIM4 3.5.015. MY NOTES ASK YOUR TEACHER | PRACTICE ANOTHER Determine the time necessary for P dollars to double when it is invested at interest rate r compounded annually, monthly, daily, and continuously. (Round your answers to two decimal places.) r = 8% (a) annually yr (b) monthly yr (:2) daily yr (d) continuously yr 4. [-/1 Points] DETAILS LARPCALCLIM4 3.5.021. Find the missing value for the radioactive isotope. (Round your answer to two decimal places.) Half-life Initial Amount After Isotope (years) Quantity 1000 Years 226Ra 1599 14 g g5. [-/1 Points] DETAILS LARPCALCLIM4 3.5.023. Find the missing value for the radioactive isotope. (Round your answer to two decimal places.) Half-life Initial Amount After Isotope (years) Quantity 1000 Years 14C 5715 g 4 g6. [l1 Points] DETAILS LARPCALCLIM4 3.5.025. Find the exponential model that fits the points shown in the graph. (Round the exponent to four decimal places.) 7. [-l6 Points] LARPCALCLIM4 3.5.032. ASK YOUR TEACHER PRACTICE ANOTI The population P (in thousands) of a certain city from 2000 through 2014 can be modeled by P = 130.8e'\
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