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The equation I am working with is

$$ E = M_e + \sum_{n = 1}^N\frac{2}{n}\mathcal{J}_n(ne)\sin(nM_e) $$

where $\mathcal{J}_n(x)$ is the nth Bessel function of the first kind.

As a test, I plotted the first 6 Bessel functions and everything worked out correctly. When I enter the argument of $n * e$, the plot isn't what I anticipated it to be.

import numpy as np
import pylab as py
import scipy.special as sp

x = np.linspace(0, 15, 500000)

for v in range(0, 6):
    py.plot(x, sp.jv(v, x))

py.xlim((0, 15))
py.ylim((-0.5, 1.1))
py.legend(('$\mathcal{J}_0(x)$', '$\mathcal{J}_1(x)$', '$\mathcal{J}_2(x)$',
           '$\mathcal{J}_3(x)$', '$\mathcal{J}_4(x)$', '$\mathcal{J}_5(x)$'),
           loc = 0)
#py.title('Plots of the first six Bessel Functions')                                
#py.savefig('besseln0to6.eps', format = 'eps')                                      

e = 0.99

def E(M):
    return (M + sum(2.0 / n * sp.jv(n * e, M) * np.sin(n * M)
                    for n in range(1, 3, 1)))

M = np.linspace(0, 2 * np.pi, 500000)

fig2 = py.figure()
ax2 = fig2.add_subplot(111, aspect = 'equal')
ax2.plot(E(M), M, 'b')

def E2(M):
    return (M + sum(2.0 / n * sp.jv(n * e, M) * np.sin(n * M)
                    for n in range(1, 11, 1)))

ax2.plot(E2(M), M, 'r')
py.xlim((0, 2 * np.pi))
py.ylim((0, 2 * np.pi))
py.xlabel('Eccentric anomaly, $E$')
py.ylabel('Mean anomaly, $M_e$')

enter image description here

The plot is supposed to look like for n = 10

enter image description here

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1 Answer 1

up vote 1 down vote accepted

The problem is the use of the Bessel function sp.jv(n * e, M) whereas it should be order, argument. That in turn leads to sp.jv(n , n * e) which generates the correct plot.

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If this solved your problem, please accept the answer, so your question is marked as answered. –  nordev May 27 '13 at 21:19
@nordev there is a time limit of 2 days before you can accept your own answer. –  dustin May 27 '13 at 21:40
Ah, I'm sorry, I forgot. –  nordev May 27 '13 at 21:46

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