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Solving exponential equation (base unknown)
- Thread starter f1player
- Start date
\(\displaystyle \L\\986619.8=\frac{1000000}{(1+r)^{\frac{18}{73}}}\)
\(\displaystyle \L\\\frac{1000000}{986619.8}=(1+r)^{\frac{18}{73}}\)
\(\displaystyle \L\\ln(\frac{1000000}{986619.8})=\frac{18}{73}ln(1+r)\)
\(\displaystyle \L\\ln(\frac{1000000}{986619.8})(\frac{73}{18})=ln(1+r)\)
Now, take e to both sides and finish?.
\(\displaystyle \L\\\frac{1000000}{986619.8}=(1+r)^{\frac{18}{73}}\)
\(\displaystyle \L\\ln(\frac{1000000}{986619.8})=\frac{18}{73}ln(1+r)\)
\(\displaystyle \L\\ln(\frac{1000000}{986619.8})(\frac{73}{18})=ln(1+r)\)
Now, take e to both sides and finish?.
f1player said:How would you solve the following equation:
986619.80 = (1000000)/(1+r)^(90/365)
How would you solve for r?
The answer is 0.05615 or 5.615% p.a.
I get stuck at this point:
(1+r)^(90/365) = 1.0135616
Since today's calculators make raising numbers to "weird powers" very simple, you can do this problem without using logs.
Take your last statement, and raise both sides to the (365/90) power:
[(1 + r)^(90/365)]^(365/90) = 1.0135616^(365/90)
(1 + r)^1 = 1.056150242
1 + r = 1.056150242
r = 0.056150242
I hope this helps you.