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I am trying to solve or somehow reduce my equation for $T$ as a function of $m_{be}$, but I am getting the response

This system cannot be solved with the methods available

Here is my equation:

$$\frac{e^{-m_{be}/T}}{1+e^{-2\Delta/T}} m_{sm}^3 \frac{1}{m_{be}^{3/2}}\sqrt{\frac{\Delta}{m_{be}}} T^{1/2}== 8 m_{be}^2+24 m_{be} T+30 T^2 $$

Could anyone please help me to find the T dependency on $m_{be}$?

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closed as off-topic by Daniel Lichtblau, Bob Hanlon, corey979, m_goldberg, MarcoB Oct 2 '16 at 0:24

This question appears to be off-topic. The users who voted to close gave this specific reason:

  • "This question cannot be answered without additional information. Questions on problems in code must describe the specific problem and include valid code to reproduce it. Any data used for programming examples should be embedded in the question or code to generate the (fake) data must be included." – Daniel Lichtblau, Bob Hanlon, corey979, m_goldberg, MarcoB
If this question can be reworded to fit the rules in the help center, please edit the question.

  • $\begingroup$ there is no code, I just use solve command. I don’t have any code for that $\endgroup$ – ShS Oct 1 '16 at 10:53
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    $\begingroup$ Could make available the Solve command you have? $\endgroup$ – LCarvalho Oct 1 '16 at 11:00
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    $\begingroup$ This equation is transcendental, so you are not likely to be able to obtain an expression for $T$ using algebraic method.s $\endgroup$ – dpravos Oct 1 '16 at 11:35
  • $\begingroup$ I think you are most likely to gain an insight by considering approximate solutions. You would probably need to have some idea of the relative magnitude of your constants and variables to make the approximations. $\endgroup$ – mikado Oct 1 '16 at 13:38
  • $\begingroup$ @mikado yeah basically I ended up using some approximation on my other variables. $\endgroup$ – ShS Oct 26 '16 at 1:00

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