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How can I remove the asymptote?

import numpy as np

e = 1.26
beta = .705 * np.pi
rph = 7000
re = 6378

def r(nuh):
    return rph * (1 + e) / (1 + e * np.cos(nuh + beta))

theta = np.linspace(-np.pi, np.pi, 50000)

fig2 = pylab.figure()
ax2 = fig2.add_subplot(111)
ax2.plot(r(theta) * np.cos(theta), r(theta) * np.sin(theta))
ax2.plot(rph * np.cos(theta), rph * np.sin(theta), 'r')
#  adding the Earth                                                                 
earth2 = pylab.Circle((0, 0), radius = re, color = 'b')
pylab.xlim((-50000, 100000))
pylab.ylim((-50000, 100000))

with asymptotes

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What's the asymptote? Also, you haven't defined re. –  askewchan May 8 '13 at 17:45
@askewchan The asymptotes are the superfluous straight lines drawing when plotting the hyperbola. re is defined now. –  dustin May 8 '13 at 17:51

1 Answer 1

up vote 3 down vote accepted

As you can see here, setting the divergent points to np.nan will cause them not to be plotted.

In your problem, it is r(theta) which diverges. Define r and theta in the usual way, but then, you want to set the extrema of r(theta) to np.nan.

To do this, make an array first, then change its extrema to np.nan:

rt = r(theta)
ext = [np.argmin(rt), np.argmax(rt)]
rt[ext] = np.nan

Now, be sure to plot with the modified rt array not the original function:

ax2.plot(rt * np.cos(theta), rt * np.sin(theta))

No asymptotes :)

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