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When I run this program, I get no solution at the end, but there should be a solution ( I believe). Any idea what I am doing wrong? If you take away the Q from e2 equation it seems to work correctly.

#!/usr/bin/python
from sympy import *

a,b,w,r = symbols('a b w r',real=True,positive=True)
L,K,Q = symbols('L K Q',real=True,positive=True)

e1=K
e2=(K*Q/2)**(a)

print solve(e1-e2,K)

It works if we do the following:

  • Set Q=1 or,
  • Change e2 to e2=(K*a)(Q/2)**(a)

I would still like it to work in the original way though, as my equations are more complicated than this.

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I expect the answer to be: K=(q/2)^(a*a/(1-a)) Which is not defined when a=1. –  user1763510 Oct 3 '13 at 19:52
    
code.google.com/p/sympy/issues/detail?id=3720 might be related? –  Greg Whittier Oct 3 '13 at 22:01
    
Feel free to open an issue in the SymPy issue tracker about this. If solve doesn't find a solution and there is one, that's considered to be a bug. –  asmeurer Oct 4 '13 at 21:47

1 Answer 1

This is just a deficiency of solve. solve is based mostly on heuristics, so sometimes it isn't able to figure out how to solve an equation when it's given in a particular form. The workaround here is to just call expand_power_base on the expression, since SymPy is able to solve K - K**a*(Q/2)**a:

In [8]: print(solve(expand_power_base(e1-e2),K))
[(2/Q)**(a/(a - 1))]

It's also worth pointing out that the result of [] from solve does not in any way mean that there are no solutions, only that solve was unable to find any. See the first note at http://docs.sympy.org/latest/tutorial/solvers.html.

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