Solve this equation for x, (1 + x)^4=34.5 . I am interested in the math libraries you'd use.
the equation is MUCH SIMPLER (1 + x)^4=34.5
thanks
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approximate x*(x+a)^b=cYou'll need a more robust solution for more complex polynomials, but this may be good enough to finish your homework. This algorithm uses Newton's Method and is written in Ruby. You can verify that the derivative and answer is correct using wolframalpha.
this produces:



It depends on what you mean by "solve". If you mean "find a value for double x that satisfies the equation to the limits of this machine's floating point accuracy" then Luiscencio's approach is fine. If by solve you mean "find an equation of the form 'x = ' such that x satisfies the given equation" (AKA "solve algebraically") then neither C nor C++ has libraries that will help. As Carl noted, you'd either have to do it by hand or use Mathematica or a similar symbolic math package to do it. If you mean something different from either of those, ask again with more detail. 


I am assuming that this question has been drastically changed since others answered, because the solution is a trivial rearrangement of the equation: x = 34.5^(1/4)  1 in code:



You mean numerically solve? I would use C runtime with "math.h" because Newton–Raphson is straightforward to implement. Actually, you should state the requirements, such as acceptable error magnitude, performance, etc... then library choice would be narrowed. 


Solving something like that in C isn't going to be much different from solving it by hand; using a system more suited to doing symbolic math (Mathematica?) is probably easier. A similar question was asked recently. 


As others have stated, your question is not much clear. There are two ways to solve an equation programmatically:
Methods of the first kind are the subject of numerical analysis. Methods of the second kind are developed for software called Computer Algebra Systems (CASs). There is at least one library in C++ developed for this purpose, GiNaC. Also, as Carl Norum mentioned, a similar question was asked recently where others CAS libraries are cited in answers. 


x1 = 34.5^(1/4)  1 // #include <math.h> 


Verify:



this is for the simpler function. it also has multiple seeds to make sure we find all roots.
this produces:
[3.4235, 1.4235] 

