We have seen that although interest is quoted as a percentage per annum it can be compounded more than once a year. We therefore need a way of comparing interest rates. For example, is an annual interest rate of \(\text{8}\%\) compounded quarterly higher or lower than an interest rate of \(\text{8}\%\) p.a. compounded yearly? Calculate the accumulated amount at the end of one year if \(\text{R}\,\text{1
000}\) is invested at \(\text{8}\%\) p.a. compound interest: \begin{align*} A &= P(1 + i)^n \\ &= \ldots \ldots \end{align*} Calculate the value of \(\text{R}\,\text{1 000}\) if it is invested for one year at \(\text{8}\%\) p.a. compounded: Use your results from the table above to calculate the effective rate that the investment of \(\text{R}\,\text{1 000}\) earns in one year: \(\begin{aligned} \text{1 081,60} &= \text{1 000}(1 + i) \\ \frac{\text{1 081,60}}{\text{1 000}} &= 1 + i \\ \frac{\text{1 081,60}}{\text{1 000}} - 1 &= i \\ \therefore i &= \text{0,0816} \end{aligned}\) An interest rate compounded more than once a year is called the nominal interest rate. In the investigation above, we determined that the nominal interest rate of \(\text{8}\%\) p.a. compounded half-yearly is actually an
effective rate of \(\text{8,16}\%\) p.a. Given a nominal interest rate \(i^{(m)}\) compounded at a frequency of \(m\) times per year and the effective interest rate \(i\), the accumulated amount calculated using both interest rates will be equal so we can write: Interest
on a credit card is quoted as \(\text{23}\%\) p.a. compounded monthly. What is the effective annual interest rate? Give your answer correct to two decimal places. Interest is being added monthly, therefore: \begin{align*} m &= 12 \\ i^{(12)} &= \text{0,23} \end{align*} \[1 + i = \left( 1 + \frac{i^{(m)}}{m} \right)^m\] \begin{align*} 1 + i &= \left( 1 +
\frac{\text{0,23}}{12} \right)^{12} \\ \therefore i &= 1 - \left( 1 + \frac{\text{0,23}}{12} \right)^{12} \\ &= \text{25,59}\% \end{align*} The effective interest rate is \(\text{25,59}\%\) per annum. Determine the nominal interest rate compounded quarterly if the effective interest rate is \(\text{9}\%\) per annum (correct to two decimal
places). Interest is being added quarterly, therefore: \begin{align*} m &= 4 \\ i &= \text{0,09} \end{align*} \[1 + i = \left( 1 + \frac{i^{(m)}}{m} \right)^m\] \begin{align*} 1 + \text{0,09} &= \left( 1 + \frac{i^{(4)}}{4} \right)^{4} \\ \sqrt[4]{\text{1,09}} &= 1 + \frac{i^{(4)}}{4} \\ \sqrt[4]{\text{1,09}} - 1 &= \frac{i^{(4)}}{4} \\ 4
\left( \sqrt[4]{\text{1,09}} - 1 \right)&= i^{(4)}\\ \therefore i^{(4)} &= \text{8,71}\% \end{align*} The nominal interest rate is \(\text{8,71}\%\) p.a. compounded quarterly. Textbook Exercise 9.6 \(\text{12}\%\) p.a. compounded quarterly. \begin{align*} 1 + i &= \left( 1 + \frac{i^{(m)}}{m} \right)^{m} \\ i &= \left( 1 + \frac{\text{0,12}}{4} \right)^{4} - 1 \\ &= \left( \text{1,03} \right)^{4} - 1 \\ &= \text{0,125508} \ldots \\ \therefore i &\approx \text{12,6}\% \end{align*} \(\text{14,5}\%\) p.a. compounded weekly. \begin{align*} 1 + i &= \left( 1 + \frac{i^{(m)}}{m} \right)^{m} \\ i &= \left( 1 + \frac{\text{0,145}}{52} \right)^{52} - 1 \\ &= \text{0,155806} \ldots \\ \therefore i &\approx \text{15,6}\% \end{align*} \(\text{20}\%\) p.a. compounded daily. \begin{align*} 1 + i &= \left( 1 + \frac{i^{(m)}}{m} \right)^{m} \\ i &= \left( 1 + \frac{\text{0,2}}{\text{365}} \right)^{\text{365}} - 1 \\ &= \text{0,221335} \ldots \\ \therefore i &= \text{22,1}\% \end{align*} Determine the effective annual interest rate of each of the nominal rates listed above. \begin{align*} 1 + i &= \left( 1 + \frac{i^{(m)}}{m} \right)^{m} \\ i &= \left( 1 + \frac{\text{0,164}}{12} \right)^{12} - 1 \\ &= \text{0,176906} \ldots \\ \therefore i &= \text{17,7}\% \end{align*} \begin{align*} 1 + i &= \left( 1 + \frac{i^{(m)}}{m} \right)^{m} \\ i &= \left( 1 + \frac{\text{0,165}}{4} \right)^{4} - 1 \\ &= \text{0,175493}\ldots \\ \therefore i &= \text{17,5}\% \end{align*} Which is the best interest rate for an investment? \(\text{17,7}\%\) Which is the best interest rate for a loan? \(\text{16,8}\%\) Calculate the effective annual interest rate equivalent to a nominal interest rate of \(\text{8,75}\%\) p.a. compounded monthly. \begin{align*} 1 + i &= \left( 1 + \frac{i^{(m)}}{m} \right)^{m} \\ i &= \left( 1 + \frac{\text{0,0875}}{12} \right)^{12} - 1 \\ &= \text{0,091095} \ldots \\ \therefore i &= \text{9,1}\% \end{align*} Cebela is quoted a nominal interest rate of \(\text{9,15}\%\) per annum compounded every four months on her investment of \(\text{R}\,\text{85 000}\). Calculate the effective rate per annum. \begin{align*} 1 + i &= \left( 1 + \frac{i^{(m)}}{m} \right)^{m} \\ i &= \left( 1 + \frac{\text{0,0915}}{3} \right)^{3} - 1 \\ &= \text{0,094319} \ldots \\ \therefore i &= \text{9,4}\% \end{align*} \(\text{9,1}\%\) p.a. compounded quarterly. \begin{align*} 1 + i &= \left( 1 + \frac{i^{(m)}}{m} \right)^{m} \\ i &= \left( 1 + \frac{\text{0,091}}{4} \right)^{4} - 1 \\ &= \text{0,094152} \ldots \\ \therefore i &= \text{9,42}\% \end{align*} \(\text{9}\%\) p.a. compounded monthly. \begin{align*} 1 + i &= \left( 1 + \frac{i^{(m)}}{m} \right)^{m} \\ i &= \left( 1 + \frac{\text{0,09}}{12} \right)^{12} - 1 \\ &= \text{0,093806} \ldots \\ \therefore i &= \text{9,38}\% \end{align*} \(\text{9,3}\%\) p.a. compounded half-yearly. \begin{align*} 1 + i &= \left( 1 + \frac{i^{(m)}}{m} \right)^{m} \\ i &= \left( 1 + \frac{\text{0,093}}{2} \right)^{2} - 1 \\ &= \text{0,095162} \ldots \\ \therefore i &= \text{9,52}\% \end{align*} Miranda invests \(\text{R}\,\text{8 000}\) for \(\text{5}\) years for her son's study fund. Determine how much money she will have at the end of the period and the effective annual interest rate if the nominal interest of \(\text{6}\%\) is compounded:
What is the equivalent rate of 10% compounded quarterly to compounded monthly?Step 2. Find the nominal rate that is compounded monthly that is equivalent to the effective rate of 10.3813%. We will use the compounding frequency m2=12 and the NOMINAL function. Hence, the 9.9178% compounded monthly is equivalent to 10% compounded quarterly.
What interest rate compounded monthly is equivalent to 10% effective rate?For example, for a deposit at a stated rate of 10% compounded monthly, the effective annual interest rate would be 10.47%. Banks will advertise the effective annual interest rate of 10.47% rather than the stated interest rate of 10%.
What nominal rate compounded monthly is equivalent to 12% compounded quarterly?So we take this to the 1/3 and then we subtracted one off again. We do that, we get 3.85 percent is the I'm all right, A phenomenal rate compounded quarterly. That's equivalent to that. 12% compounded monthly.
What nominal interest rate per year is equivalent to an effective 12% per year compounded quarterly?Answer and Explanation:
The correct answer is c) 12.55%. Values from the question are: Annual interest rate = 12% per year. Compounding Frequency = 4 times in a year.
|
What nominal interest rate compounded monthly is equivalent to 10% compounded quarterly?
zusammenhängende Posts
Urheberrechte © © 2024 nguoilontuoi Inc.
