Is there a bisection method I can find online, specifically for python?

For example, given these equations how can I solve them using the bisection method?

x^3 = 9  
3 * x^3 + x^2 = x + 5  
cos^2x + 6 = x  
  • I wish my numerical methods course had used Python. :/ This is really instructive to implement yourself; just read Wikipedia's description for the algorithm. – Derrick Turk Dec 1 '10 at 17:12
  • Best to use something that's already been in use by many people than to try to write it yourself. 75%-90% of binary search implementations are incorrect. – endolith Apr 16 '13 at 21:21

Using scipy.optimize.bisect:

import scipy.optimize as optimize
import numpy as np

def func(x):
    return np.cos(x)**2 + 6 - x

# 0<=cos(x)**2<=1, so the root has to be between x=6 and x=7
print(optimize.bisect(func, 6, 7))
# 6.77609231632

optimize.bisect calls _zeros._bisect, which is implemented in C.

  • how to get the a and b value? and also the number of loop? – bbnn Dec 1 '10 at 17:00
  • like in the example math.fullerton.edu/mathews/n2003/BisectionMod.html it is trying to solve this equation (x^3+4x^2-10=0) and it uses function Bisection[1,2,30] how to get the number 1 2 and 30? is it from the equation? – bbnn Dec 1 '10 at 17:04
  • @bn: To use bisect, you must supply a and b such that func(a) and func(b) have opposite signs, thus guaranteeing that there is a root in [a,b] since func is required to be continuous. You could try to guess the values for a and b, use a bit of analysis, or if you want to do it programmatically, you could devise some method of generating candidate a and b until you find two that have opposite signs. That's all beyond the scope of the simple bisect method however. – unutbu Dec 1 '10 at 17:06
  • @bn: Regarding the number of iterations, scipy.optimize.bisect has a maxiter argument. For example, so.bisect(func,6,8,maxiter=500). See docs.scipy.org/doc/scipy/reference/generated/…. – unutbu Dec 1 '10 at 17:08
  • @unutbu, thanks! for (equation x^3 = 9 ) i tried value of 0 for a and 1000 for b (2.10571289062) . and it gives me different answer with 0 for a and 5 for b (2.0802307129) according to wolfram, this 2.0802307129 is the answer wolframalpha.com/input/?i=x^3+%3D+9++ – bbnn Dec 1 '10 at 17:16

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