Trish had a loan with a balance of 4000 at the beginning of month 1. Starting with month 1, and every month thereafter, she made a payment of X in the middle of the month. At the beginning of month 4, and every 6 months thereafter, she borrowed an additional 800. Trish’s loan balance became 4000 again at the end of month 36. The annual nominal interest rate for the loan is 26.4%, convertible quarterly.

Determine which of the following is an equation of value that can be used to solve for X.

• [[math]]\sum_{n=1}^{6}{\frac{800}{\left(1+{\frac{0.2640}{4}}\right)^{2n-1}}}=\sum_{n=1}^{36}{\frac{X}{\left(1+{\frac{0.2640}{4}}\right)^{\frac{n-0.5}{3}}}} [[/math]]
• [[math]]\sum_{n=1}^{6}\frac{800}{\left(1+\frac{0.2640}{12}\right)^{6n-3}}=\sum_{n=1}^{36}\frac{X}{\left(1+\frac{0.2640}{12}\right)^{n-0.5}} [[/math]]
• [[math]]4000+\sum_{n=1}^{6}{\frac{800}{\left(1+{\frac{0.2640}{4}}\right)^{\frac{6n-2}{3}}}}+\sum_{n=1}^{\frac{\displaystyle4000}{4}}{\frac{X}{\left(1+{\frac{0.2640}{4}}\right)^{\frac{n}{3}}}} [[/math]]
• [[math]]4000+\sum_{n=1}^{6}{\frac{800}{\left(1+{\frac{0.2640}{12}}\right)^{6n-3}}}={\frac{4000}{\left(1+{\frac{0.2640}{12}}\right)^{36}}}+\sum_{n=1}^{36}{\frac{X}{\left(1+{\frac{0.2640}{12}}\right)^{n-0.5}}} [[/math]]
• [[math]]4000+\sum_{n=1}^{6}{\frac{800}{\left(1+{\frac{0.2640}{4}}\right)^{2n-1}}}={\frac{4000}{\left(1+{\frac{0.2640}{4}}\right)^{12}}}+\sum_{n=1}^{\infty}{\frac{X}{\left(1+{\frac{0.2640}{4}}\right)^{n-0.5}}} [[/math]]