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In Wolfram|Alpha, one can solve cos λ = -1/cosh λ:

λ = ± 1.87510406871196...
λ = ± 4.69409113297417...
λ = ± 7.85475743823761...
λ = ± 10.9955407348755...

Why does cos(x) = - 1 /cosh(x) not work in SymPy?

I tried this:

from sympy import *
x = symbols('x', real=True)  
eq = cos(x) + 1 /cosh(x)
ans=solve(eq)
print(ans)
# NotImplementedError: multiple generators [cos(x), exp(x)]
# No algorithms are implemented to solve equation cos(x) + 1/(exp(x)/2 + exp(-x)/2)

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(2018/08/21) Graphing Calculator

https://www.numberempire.com/graphingcalculator.php?functions=cos(x)%2C-1%2Fcosh(x)&xmin=0&xmax=10&ymin=-1.5&ymax=1.5&var=x

https://www.numberempire.com/graphingcalculator.php?functions=cos(x)*cosh(x)%2C-1&xmin=-10&xmax=10&ymin=-1.5&ymax=1.5&var=x

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1 Answer 1

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"Sym" in SymPy stands for symbolic. Did WolframAlpha find a symbolic solution? No, it did not; because there isn't one. So, SymPy did not find one, either.

What you got from WolframAlpha is a numeric solution. To get those, there are other Python libraries, most notably SciPy.

However, SymPy can get you numeric solutions too, by calling mpmath under the hood. This is done with nsolve. It takes a second argument, initial point of the search for solution, and returns one solution.

>>> nsolve(eq, 0)
7.85475743823761

If you want more, try multiple starting points:

>>> {nsolve(eq, n) for n in range(-10, 10)}
{4.69409113297418, -1.87510406871196, 7.85475743823761, -7.85475743823761, 1.87510406871196, -10.9955407348755, -4.69409113297418}

Here I tried 20 starting points, some roots were repeated, hence the use of a set to eliminate the repetition.

There are infinitely many solutions; whatever tool is used, you'll only get several of those. But for large x, 1/cosh(x) is effectively 0, so the roots are approximately the same as cos(x) = 0, which are pi/2 + pi*k, any integer k.

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