Solve the problem.At what interest rate would a deposit of $50,000 grow to $ 116,982 in 25 years with continuous compounding?
Category: Uncategorized
Convert to a logarithmic equation.
Convert to a logarithmic equation.
Convert to an exponential equation.log381 = 4
Convert to an exponential equation.log381 = 4
Solve the problem.An initial investment of $1000 is apprecia…
Solve the problem.An initial investment of $1000 is appreciated for 5 years in an account that earns 12% interest, compounded annually. Find the amount of money in the account at the end of the period.
If $ 2000 is invested in an account that pays interest compo…
If $ 2000 is invested in an account that pays interest compounded continuously, how long will it take to grow to $ 2800 at 8.25%?
Write the expression in expanded form. ln[x(x – 1)]
Write the expression in expanded form. ln[x(x – 1)]
Solve the logarithmic equation.log(x – 3) = 1 – log x
Solve the logarithmic equation.log(x – 3) = 1 – log x
Write the expression in condensed form. log2(13) – log2(y)
Write the expression in condensed form. log2(13) – log2(y)
Use a graphing utility and the change-of-base formula to det…
Use a graphing utility and the change-of-base formula to determine the graph of the function.y = log4(x – 1)
Convert to a logarithmic equation. 23 = 8
Convert to a logarithmic equation. 23 = 8