ASKSAGE: Sage Q&A Forum - RSS feedhttps://ask.sagemath.org/questions/Q&A Forum for SageenCopyright Sage, 2010. Some rights reserved under creative commons license.Tue, 28 Aug 2012 12:15:47 +0200problem with numerical integration and differentiation with scipyhttps://ask.sagemath.org/question/9272/problem-with-numerical-integration-and-differentiation-with-scipy/Hi,
I was trying to learn Scipy, using it for integration and differentiation, but at the very initial step I encontered the following problems.
First, the following integration has a complex value as its numerical result when is solved analytically, but the numerical solution only gives its real part without any note for caution:
reset()
forget()
import scipy as sp
from scipy import integrate
var('y')
f=lambda x: 10^10*sin(x)
g=lambda x,y: f(x+y^2)
I=integrate.dblquad(g(x,y), 0, pi, lambda y:0,lambda y:1)[0]; show(I)
show( integral(integral(g(x,y),x,0,1),y,0,pi) )
show( integral(integral(g(x,y),x,0,1),y,0,pi).n() )
is this natural or I am doing something wrong that may cause my even **Real calculations** erratic?
Next, about numerical differentiation, it seems that the only function that works for callable functions is scipy.derivative() if I'm right!? However, I couldn't work with it:
**1st)** when I am not going to specify the point at which the differentiation is to be taken, e.g. when the differentiation is under an integral so that it is the integral that should assign the numerical values to its integrand's variable, not me. As a simple example I tried this code:
import scipy as sp
from scipy import integrate, derivative
I2=integrate.quad( sp.derivative(f(y),y, dx=0.00001, n=1, order=7) , 0, pi,)[0]; show(I2)
show( integral(diff(f(y),y),y,0,1).n() )
also it gives the warning that "Warning: The ocurrence of roundoff error is detected, which prevents the requested tolerance from being achieved. The error may be underestimated."
**2nd)** when I want to find the derivative of a multivariable function like g(x,y) in the above example, and something like sp.derivative(g(x,y),(x,0.5), dx=0.01, n=1, order=3) gives error as was easily expected.
Looking forward to hearing from you if that integration result is natural and how to resolve the above cited problems with numerical differentiation.
Best RegardsowariTue, 28 Aug 2012 12:15:47 +0200https://ask.sagemath.org/question/9272/