# Underflow issue in Python

I need to draw the following function, which is what I call theory data

with a=z-(L/2) b=z+(L/2) for the following case

• N=75
• I=1
• L=0.16
• R=0.013

for z between -0.011 and 0.011. My guess is that there are underflow issues. The code is as follows

``````import numpy as np
import matplotlib.pyplot as plt

class Solenoid():

def __init__(self,N,I,L,R):
self.N=N
self.I=I
self.L=L
self.R=R

def field(self,z):

mu=4*(np.pi)*(10 ** -7)

coef=(mu*self.N*self.I)/(2*self.L)

a=z+(self.L/2)
b=z-(self.L/2)

sum_a=a/((self.R ** 2 + a ** 2) ** 0.5)

sum_b=b/((self.R ** 2 + b ** 2) ** 0.5)

return (coef*(sum_a - sum_b))

sol=Solenoid(75,1,0.160,0.013)
x=np.linspace(-0.011, 0.011, 10000)
y=[]

for point in x:
y.append(sol.field(point))

plt.plot(x,y)
plt.show()
``````

The output is

which is plain wrong. The expected output is a more or less smooth line along with experimental data:

UPDATE New output is

-
10^-3 shouldn't cause an underflow! –  gat Mar 29 at 14:10
the variables sum_a and sum_b are quite close, and they are substracted –  Jorge Mar 29 at 14:11
Why don't you try printing their values at each step and see if that is indeed happening. –  gat Mar 29 at 14:14
unrelated: to avoid integer division add `from __future__ import division` at the top –  J.F. Sebastian Mar 29 at 14:28