Continuous Compound Interest

~If P_o amount of money is compounded n times per year at an interest rate of r% for t years, the ending balance will be

P_o(1+(r/n))^nt dollars.

~See the following link for a derivation:

Compound Interest

~If the number of periods per year, n , approaches ∞, P_o will be compounded continuously.

~The formula becomes, P_oe^rt

The following is the derivation:

Let P = P_o(1+(r/n))^nt

Take the ln of both sides to get, lnP = lnP_o+nt[ln(1+(r/n))]

Now, let n approach ∞

Note: All limits in the derivation below has n approaching ∞

The equation becomes, lnP= lnP_o + t{lim[(ln(1+(r/n))/(1/n)]}

L'Hospital's rule can be applied to the limit on the right side of the equation since it is of the form 0/0

Applying L'Hospital's rule, we get, lnP= lnP_o + t{lim[{(1/[1+(r/n)]}(-rn^-2/(-n^-2]}=

lnP_o + rt{lim[1/[1+(r/n)]}=lnP_o+rt

Or, [lnP - lnP_o]= rt, or ln(P/P_o)= rt, so P/P_o = e^rt

which gives, P = P_oe^rt