# pylab plot showing asymptotes

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.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))
pylab.show()
``````

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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

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))
``````

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