Answer:
15.6 years
Step-by-step explanation:
We calculate the effective annual rate for 6.25% compounded daily:
[tex]i_n=(1+i/n)^n-1 \ \ \, n=365, i=6.25\%\\\\i_{365}=(1+0.0625/365)^{365}-1\\\\i_{365}=0.064488763[/tex]
Given the principal amount as $1500 and the future value as $4000, the number years is calculated as:
[tex]FV=P(1+i)^n, \ \ \ \ \ P=1500, FV=4000, i=0.064488763\\\\4000=1500(1+.064488763)^n\\\\\frac{8}{3}=1.064488763^n\\\\n=\frac{log(\frac{8}{3})}{log \ 1.064488763}\\\\n=15.6[/tex]
Hence, the term of the loan is 15.6 years
