x =-1 ent x= 2.19615 322 x= 2.20 6. Use the change of base formula to...
Use Laws of Logarithms to solve the following equations. a) Write the expression as a sum, difference or product of logs. Ipa 7 logo b) Write the expression as a single log. (log3 p – log3 9) + 2 logz r c) Solve the equation and give the answer to four decimal places. 31-2x = 4* d) Solve the log equation and give the answer to four decimal places. log(9x) = 2 – log.(x + 3)
4) a) Convert log, x = t into an exponential equation. b) Convert 3 into a logarithmic equation. c) Use the change of base formula to find log, 5 to four decimal places.
a) Convert log x=t into an exponential equation. b) Convert 3-2 = into a logarithmic equation. 9 Use the change of base formula to find log; 5 to four decimal places.
15 all parts please! 15. Use Laws of Logarithms to solve the following equations. a) Write the expression as a sum, difference or product of logs. P9 V 7 10g6 pa b) Write the expression as a single log. (loga p-loga 9) + 2 logar c) Solve the equation and give the answer to four decimal places. 31-2x = 4* d) Solve the log equation and give the answer to four decimal places. log.(9x) = 2 - log. (x +...
15) Use the compound interest formulas A-P and 15) Find the accumulated value of an investment of $3000 at 8% compounded annually for 9 years. A) $5552.79 B) $5160,00 C)$5997.01 D) $4920.00 Rewrite the equation in terms of base e. Express the answer in terms of a natural logarithm, and then round to three decimal places. 16) y - 2.2(0.9) 16) A)y=220.9% y=222718-0.105x B) y=22eXIn09 y=2.2 -0.105x C)y-09ex In22 y-0.90788 D) y-In 22)ex In 69 y-0788e-0.105 Graph the function 17)...
14. For each statement, write an equivalent statement in logarithmic form. a) 63 = 216 b) 3-4 = 1 c) a =C 15. For each statement, write an equivalent statement in exponential form. a) log: 32 = -5 b) log2 V8 = c) log, sut 16. Find the value of each expression without using a calculator. a) log3 729 b) log 100,000 d) log 16 e) log32 2 g) logs 16 h) log1632 j) In e k) In e c)...
Evaluate log5625 using the following methods. By switching from logarithmic to exponential form By cancelling the base with the log base By using the "change of base" rule Simplify and evaluate each of the following expressions using the laws of logarithms. log62+log618 log4256+log42−log48 log2128−3log24 Solve each of the following equations. logx81=2 log12x=3 log7(2x−5)=3 Task 2: Thinking questions Use systematic trial and error to evaluate log35. A culture of bacteria doubles every three hours. The initial culture contains 500 bacteria. How...
help 1-6 thank you Fill in the blank so that the resulting statement is true. If log 5x + log 5(x + 2) = 2, then log 5 = 2 If log 5X + log 5(x + 2) = 2, then log 5 = 2. Rewrite the equation in terms of base e. Express the answer in terms of a natural logarithm and then round to three decimal places.. y = 94(3.5)* Express the answer in terms of a natural...
— Solve. 21) An endangered species of fish has a population that is decreasing exponentially (A=Agekt). 21) The population 6 years ago was 1600. Today, only 900 of the fish are alive. Once the population drops below 100, the situation will be irreversible. When will this happen, according to the model? (Round to the nearest whole year.) A) 23 years from today B) 22 years from today C) 25 years from today D) 24 years from today Solve the logarithmic...
kindly ans asap thankss question 1 The domain of the piecewise function is (-0.00) a. Grach the function b. Use your graph to determine the function's range = a. Choose the correct graph below OB b. The range of f is Type your answer in interval notation Use factoring to solve the quadratic equation. Check by substitution or by using a graphing utility and identifying x-intercepts. 2x2 = 7x + 72 Rewrite the equation in factored form. =0 (Factor completely)...