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This is what I've atempted so far in solving $\lambda^3 - 3.250\lambda^2 + \lambda - 0.063 = 0$. The following are the steps:

step 1: $f(\lambda) = \lambda^3 - 3.250\lambda^2 + \lambda - 0.063 $

step 2a: $f(0) = -0.063$

step 2b: $f(1) = -1.313$

step 3: $f(2) = -4.063$

step 4: $f(3) = -17.313$

step 5: $f(4) = 14.937$

This shows that the value of the root is close to $\lambda = 3$. Now we use the iterative formula: $r_{4} = r_{3} - \frac{f(r_{3})}{f^\prime(r_{3})}$

where $f(r_{3}) = -17.313$ and $f^\prime(r_{3}) = 8.5$. Then we compute $r_{4} = 3-\frac{(-17.313)}{8.5} = 5.0368$

Question: Have I followed the preliminary steps correctly?

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    I had a calculator do this, until the precision was 110 digits http://pastebin.com/0U3Lu1FG2014-05-17

1 Answers 1

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Your iteration seems to be incorrect with a guess of 3, I have calculated the root using newtons method to 110 digits here.
The next value is about 2.919 but your value is about 5.037.

Also the polynomial has two more roots at 0.24885... and 0.0868705...