Problem 1TI: Which of the following equations represent exponential functions? â€¢ f(x)=2x23x+1 â€¢ g(x)=0.875x â€¢... Problem 2TI: Let f(x)=8(1.2)x5. Evaluate f(3) using a calculator. Round to four decimal places. Problem 3TI: The population of China was about 1.39 billion in the year 2013, with an annual growth rate of about... Problem 4TI: A wolf population is growing exponentially. In 2011, 129 wolves were counted. By 2013, the... Problem 5TI: Given the two points (1,3) and (2,4.5) , find the equation of the exponential function that passes... Problem 6TI: Find an equation for the exponential function graphed in Figure 6. Problem 7TI: Use a graphing calculator to find the exponential equation that includes the points (3,75.98) and... Problem 8TI: An initial investment of 100,000 at 12 interest is compounded weekly (use 52 weeks in a year). What... Problem 9TI: Refer to Example 9. To the nearest dollar, how much would Lily need to invest if the account is... Problem 10TI: Use a calculator to find e0.5. Round to five decimal places. Problem 11TI: A person invests 100,000 at a nominal 12 interest per year compounded continuously. What will be the... Problem 12TI: Using the data in Example 12, how much radon-222 will remain after one year? Problem 1SE: Explain why the values of an increasing exponentialfunction will eventually overtake the valuesof... Problem 2SE: Given a formula for an exponential function, is itpossible to determine whether the function grows... Problem 3SE: The Oxford Dictionary defines the word nominal asa value that is â€œstated or expressed but... Problem 4SE: For the following exercises, identify whether the statement represents an exponential function.... Problem 5SE: For the following exercises, identify whether the statement represents an exponential function.... Problem 6SE: For the following exercises, identify whether the statement represents an exponential function.... Problem 7SE: For the following exercises, identify whether the statement represents an exponential function.... Problem 8SE: For the following exercises, identify whether the statement represents an exponential function.... Problem 9SE: For the following exercises, consider this scenario: For each year t, the population of a forest... Problem 10SE: For the following exercises, consider this scenario: For each year t , the population of a forest of... Problem 11SE: For the following exercises, consider this scenario: For each year t , the population of a forest of... Problem 12SE: For the following exercises, consider this scenario: For each year t , the population of a forest of... Problem 13SE: For the following exercises, consider this scenario: For each year t , the population of a forest of... Problem 14SE: For the following exercises, determine whether the equation represents exponential growth,... Problem 15SE: For the following exercises, determine whether the equation represents exponential growth,... Problem 16SE: For the following exercises, determine whether the equation represents exponential growth,... Problem 17SE: For the following exercises, determine whether the equation represents exponential growth,... Problem 18SE: For the following exercises, find the formula for an exponential function that passes through the... Problem 19SE: For the following exercises, find the formula for an exponential function that passes through the... Problem 20SE: For the following exercises, find the formula for an exponential function that passes through the... Problem 21SE: For the following exercises, find the formula for an exponential function that passes through the... Problem 22SE: For the following exercises, find the formula for an exponential function that passes through the... Problem 23SE: For the following exercises, determine whether the table could represent a function that is linear,... Problem 24SE: For the following exercises, determine whether the table could represent a function that is linear,... Problem 25SE: For the following exercises, determine whether the table could represent a function that is linear,... Problem 26SE: For the following exercises, determine whether the table could represent a function that is linear,... Problem 27SE: For the following exercises, determine whether the table could represent a function that is linear,... Problem 28SE: For the following exercises, use the compound interest formula, A(t)=P(1+rn)nt. After a certain... Problem 29SE: For the following exercises, use the compound interest formula, A(t)=P(1+rn)nt. What was the initial... Problem 30SE: For the following exercises, use the compound interest formula, A(t)=P(1+rn)nt. How many years had... Problem 31SE: For the following exercises, use the compound interest formula, A(t)=P(1+rn)nt. An account is opened... Problem 32SE: For the following exercises, use the compound interest formula, A(t)=P(1+rn)nt. How much more would... Problem 33SE: For the following exercises, use the compound interest formula, A(t)=P(1+rn)nt. Solve the compound... Problem 34SE: For the following exercises, use the compound interest formula, A(t)=P(1+rn)nt. 34. Use the formula... Problem 35SE: For the following exercises, use the compound interest formula, A(t)=P(1+rn)nt. 35. How much more... Problem 36SE: For the following exercises, use the compound interest formula, A(t)=P(1+rn)nt. Use properties of... Problem 37SE: For the following exercises, use the compound interest formula, A(t)=P(1+rn)nt. Use the formula... Problem 38SE: For the following exercises, use the compound interest formula, A(t)=P(1+rn)nt. Use the formula... Problem 39SE: For the following exercises, determine whether the equation represents continuous growth, continuous... Problem 40SE: For the following exercises, determine whether the equation represents continuous growth, continuous... Problem 41SE: For the following exercises, determine whether the equation represents continuous growth, continuous... Problem 42SE: For the following exercises, determine whether the equation represents continuous growth, continuous... Problem 43SE: For the following exercises, determine whether the equation represents continuous growth, continuous... Problem 44SE: For the following exercises, evaluate each function. Round answers to four decimal places, if... Problem 45SE: For the following exercises, evaluate each function. Round answers to four decimal places, if... Problem 46SE: For the following exercises, evaluate each function. Round answers to four decimal places, if... Problem 47SE: For the following exercises, evaluate each function. Round answers to four decimal places, if... Problem 48SE: For the following exercises, evaluate each function. Round answers to four decimal places, if... Problem 49SE: For the following exercises, evaluate each function. Round answers to four decimal places, if... Problem 50SE: For the following exercises, evaluate each function. Round answers to four decimal places, if... Problem 51SE: For the following exercises, use a graphing calculator to find the equation of an exponential... Problem 52SE: For the following exercises, use a graphing calculator to find the equation of an exponential... Problem 53SE: For the following exercises, use a graphing calculator to find the equation of an exponential... Problem 54SE: For the following exercises, use a graphing calculator to find the equation of an exponential... Problem 55SE: For the following exercises, use a graphing calculator to find the equation of an exponential... Problem 56SE: The annual percentage yield (APY) of an investmentaccount is a representation ofthe actual interest... Problem 57SE: Repeat the previous exercise to find the formula forthe APY of an account that compounds daily.... Problem 58SE: Recall that an exponential function is any equationwritten in the form f(x)=abx such that a and b... Problem 59SE: In an exponential decay function, the base of theexponent is a value between 0 and 1. Thus, for... Problem 60SE: The formula for the amount A in an investmentaccount with a nominal interest rate r at any timet is... Problem 61SE: The fox population in a certain region has an annualgrowth rate of 9 per year. In the year 2012,... Problem 62SE: A scientist begins with 100 milligrams of aradioactive substance that decays exponentially. After 35... Problem 63SE: In the year 1985, a house was valued at 110,000. Bythe year 2005, the value hadappreciated to... Problem 64SE: A car was valued at 38,000 in the year 2007. By 2013, the value had depreciated to 11,000 If the... Problem 65SE: Jamal wants to save 54,000 for a down paymenton a home. How much will he need to invest in anaccount... Problem 66SE: Kyoko has 10,000 that she wants to invest. Her bankhas several investment accounts tochoose from,... Problem 67SE: Alyssa opened a retirement account with 7.25 APRin the year 2000. Her initial deposit was 13,500.... Problem 68SE: An investment account with an annual interest rateof 7 was opened with an initial deposit of 4,000... format_list_bulleted