exercise:32b7546643: Difference between revisions
From Stochiki
(Created page with "Happy and financially astute parents decide at the birth of their daughter that they will need to provide 50,000 at each of their daughter’s 18th , 19th , 20th and 21st birthdays to fund her college education. They plan to contribute <math>X</math> at each of their daughter’s 1 st through 17th birthdays to fund the four 50,000 withdrawals. They anticipate earning a constant 5% annual effective interest rate on their contributions. Let v = 1/1.05 Determine which of...") |
No edit summary |
||
Line 1: | Line 1: | ||
Happy and financially astute parents decide at the birth of their daughter that they will need to provide 50,000 at each of their daughter’s 18th , 19th , 20th and 21st birthdays to fund her college education. They plan to contribute <math>X</math> at each of their daughter’s 1 st through 17th birthdays to fund the four 50,000 withdrawals. They anticipate earning a constant 5% annual effective interest rate on their contributions. | Happy and financially astute parents decide at the birth of their daughter that they will need to provide 50,000 at each of their daughter’s 18th , 19th , 20th and 21st birthdays to fund her college education. They plan to contribute <math display = "block">X</math> at each of their daughter’s 1 st through 17th birthdays to fund the four 50,000 withdrawals. They anticipate earning a constant 5% annual effective interest rate on their contributions. | ||
Let v = 1/1.05 | Let v = 1/1.05 | ||
Determine which of the following equations of value can be used to calculate <math>X</math>. | Determine which of the following equations of value can be used to calculate <math display = "block">X</math>. | ||
<ul class="mw-excansopts"> | <ul class="mw-excansopts"> | ||
<li><math>X\sum_{k=1}^{17}\nu^{k}=50,000[\nu+\nu^{2}+\nu^{3}+\nu^{4}]</math></li> | <li><math display = "block">X\sum_{k=1}^{17}\nu^{k}=50,000[\nu+\nu^{2}+\nu^{3}+\nu^{4}]</math></li> | ||
<li><math>X\sum_{k=1}^{16}1.05^{k}=50,000\left [1+\nu+\nu^{2}+\nu^{3}\right]</math></li> | <li><math display = "block">X\sum_{k=1}^{16}1.05^{k}=50,000\left [1+\nu+\nu^{2}+\nu^{3}\right]</math></li> | ||
<li><math>X\sum_{k=0}^{17}1.05^{k}=50,000\left [1+\nu+\nu^{2}+\nu^{3}\right]</math></li> | <li><math display = "block">X\sum_{k=0}^{17}1.05^{k}=50,000\left [1+\nu+\nu^{2}+\nu^{3}\right]</math></li> | ||
<li><math>X\sum_{k=1}^{17}1.05^{k}=50,000[1+\nu+\nu^{2}+\nu^{3}] | <li><math display = "block">X\sum_{k=1}^{17}1.05^{k}=50,000[1+\nu+\nu^{2}+\nu^{3}] | ||
</math></li> | </math></li> | ||
<li><math> X\sum_{k=0}^{17}\nu^{k}=50,000[\nu^{18}+\nu^{19}+\nu^{20}+\nu^{21}+\nu^{22}]</math></li> | <li><math display = "block"> X\sum_{k=0}^{17}\nu^{k}=50,000[\nu^{18}+\nu^{19}+\nu^{20}+\nu^{21}+\nu^{22}]</math></li> | ||
</ul> | </ul> | ||
{{soacopyright | 2023 }} | {{soacopyright | 2023 }} |
Revision as of 22:08, 18 November 2023
Happy and financially astute parents decide at the birth of their daughter that they will need to provide 50,000 at each of their daughter’s 18th , 19th , 20th and 21st birthdays to fund her college education. They plan to contribute
[[math]]X[[/math]]
at each of their daughter’s 1 st through 17th birthdays to fund the four 50,000 withdrawals. They anticipate earning a constant 5% annual effective interest rate on their contributions.
Let v = 1/1.05
Determine which of the following equations of value can be used to calculate
[[math]]X[[/math]]
.
- [[math]]X\sum_{k=1}^{17}\nu^{k}=50,000[\nu+\nu^{2}+\nu^{3}+\nu^{4}][[/math]]
- [[math]]X\sum_{k=1}^{16}1.05^{k}=50,000\left [1+\nu+\nu^{2}+\nu^{3}\right][[/math]]
- [[math]]X\sum_{k=0}^{17}1.05^{k}=50,000\left [1+\nu+\nu^{2}+\nu^{3}\right][[/math]]
- [[math]]X\sum_{k=1}^{17}1.05^{k}=50,000[1+\nu+\nu^{2}+\nu^{3}] [[/math]]
- [[math]] X\sum_{k=0}^{17}\nu^{k}=50,000[\nu^{18}+\nu^{19}+\nu^{20}+\nu^{21}+\nu^{22}][[/math]]