A friend of mine came upon the following problem.
Solve for $a$ the equation $\displaystyle\int_{0}^a \left(3^{\frac{1}{3} \left( x^3 - 3x \right)}- 1\right)\, dx = 0$.
By typing the problem into either wolfram, maple, or matlab it is easily solvable. Assume for a minute you want to solve this by using pen paper, and a very basic calculator. multiplication, division, exponents. No iterative functions, no integrals etc.
How would one most easily solve this problem ? I tried using Simpsons 3/8 combined with newton. But alas, the computations were not accurate enough. I would like to obtain a precision of 3 digits. Meaning 2.23 or better =)
Here is the "exact" value
2.227185349853887802594276227693823508660419768745303460008020665494240139789974722809139563708277641
I tried using newton/rhapson
$ N(a) = a - \dfrac{f(a)}{f^{\,\prime\!}(a)} $
Where $ f(a) = \int_{0}^a \left(3^{\frac{1}{3} \left( x^3 - 3x \right)}- 1\right)\, dx $
My first guess was $a=2$ by looking at the graph. For estimating $f(2)$ I used simpsons 3/8 rule.
http://i44.tinypic.com/2vj9xrn.png
Thanks in advance.