Which solver can solve this equation for V. Result should be around 59. I tested the to halfs of the equation on python. Thank you for your directions in the first place.
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Karl
am 30 Aug. 2022
Beantwortet: John D'Errico
am 30 Aug. 2022
(650.5-(500-V))/((150.5-V*0.5)/(V*0.8660254037844386)) = ((500-V)-((650.5/(((150.5-V*0.5)/(V*0.8660254037844386))+1.364))*1.364))/((((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/(264.77-(650.5-(500-V))/(284.7/(264.77-(284.7/((150.5-V*0.5)/(V*0.8660254037844386)))))))+1.7320508075688773))*1.7320508075688773+(500-V))-((650.5/(((150.5-V*0.5)/(V*0.8660254037844386))+1.364))*1.364))/(268.18-(((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/(264.77-(650.5-(500-V))/(284.7/(264.77-(284.7/((150.5-V*0.5)/(V*0.8660254037844386)))))))+1.7320508075688773))*1.7320508075688773+(500-V))-365.8)/(284.7/(268.18-((650.5-(500-V))/1.7320508075688773))))) monospaced
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Akzeptierte Antwort
Torsten
am 30 Aug. 2022
Bearbeitet: Torsten
am 30 Aug. 2022
fun = @(V)((500-V)-((650.5/(((150.5-V*0.5)/(V*0.8660254037844386))+1.364))*1.364))/((((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/(264.77-(650.5-(500-V))/(284.7/(264.77-(284.7/((150.5-V*0.5)/(V*0.8660254037844386)))))))+1.7320508075688773))*1.7320508075688773+(500-V))-((650.5/(((150.5-V*0.5)/(V*0.8660254037844386))+1.364))*1.364))/(268.18-(((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/(264.77-(650.5-(500-V))/(284.7/(264.77-(284.7/((150.5-V*0.5)/(V*0.8660254037844386)))))))+1.7320508075688773))*1.7320508075688773+(500-V))-365.8)/(284.7/(268.18-((650.5-(500-V))/1.7320508075688773)))))-(650.5-(500-V))/((150.5-V*0.5)/(V*0.8660254037844386));
format long
V = fsolve(fun,50)
fun(V)
1 Kommentar
Bruno Luong
am 30 Aug. 2022
Bearbeitet: Bruno Luong
am 30 Aug. 2022
I would use fzero for singlle variable function
fun = @(V)((500-V)-((650.5/(((150.5-V*0.5)/(V*0.8660254037844386))+1.364))*1.364))/((((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/(264.77-(650.5-(500-V))/(284.7/(264.77-(284.7/((150.5-V*0.5)/(V*0.8660254037844386)))))))+1.7320508075688773))*1.7320508075688773+(500-V))-((650.5/(((150.5-V*0.5)/(V*0.8660254037844386))+1.364))*1.364))/(268.18-(((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/(264.77-(650.5-(500-V))/(284.7/(264.77-(284.7/((150.5-V*0.5)/(V*0.8660254037844386)))))))+1.7320508075688773))*1.7320508075688773+(500-V))-365.8)/(284.7/(268.18-((650.5-(500-V))/1.7320508075688773)))))-(650.5-(500-V))/((150.5-V*0.5)/(V*0.8660254037844386));
format long
V = fzero(fun,50)
fun(V)
Weitere Antworten (1)
John D'Errico
am 30 Aug. 2022
So the second time you asked this question, you provided values for the other variables. I'll first put it in symbolic form so we can see what you have.
syms V
F_V = -(650.5-(500-V))/((150.5-V*0.5)/(V*0.8660254037844386)) + ((500-V)-((650.5/(((150.5-V*0.5)/(V*0.8660254037844386))+1.364))*1.364))/((((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/(264.77-(650.5-(500-V))/(284.7/(264.77-(284.7/((150.5-V*0.5)/(V*0.8660254037844386)))))))+1.7320508075688773))*1.7320508075688773+(500-V))-((650.5/(((150.5-V*0.5)/(V*0.8660254037844386))+1.364))*1.364))/(268.18-(((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/(264.77-(650.5-(500-V))/(284.7/(264.77-(284.7/((150.5-V*0.5)/(V*0.8660254037844386)))))))+1.7320508075688773))*1.7320508075688773+(500-V))-365.8)/(284.7/(268.18-((650.5-(500-V))/1.7320508075688773)))))
Note that I put both onto the same side of the equation, so I can plot it, as a function of V.
fplot(F_V,[0,100])
There does appear to be a solution for this relation. As I said in my response the FIRST time you asked the question, there will be NO analytical solution. Don't even bother to look.
Just use fzero.
F_v = @(V) -(650.5-(500-V))/((150.5-V*0.5)/(V*0.8660254037844386)) + ((500-V)-((650.5/(((150.5-V*0.5)/(V*0.8660254037844386))+1.364))*1.364))/((((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/(264.77-(650.5-(500-V))/(284.7/(264.77-(284.7/((150.5-V*0.5)/(V*0.8660254037844386)))))))+1.7320508075688773))*1.7320508075688773+(500-V))-((650.5/(((150.5-V*0.5)/(V*0.8660254037844386))+1.364))*1.364))/(268.18-(((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/((((((500*2-(500-V))/3.052050807569)*1.7320508075688773+(500-V))-(500-V))/(264.77-(650.5-(500-V))/(284.7/(264.77-(284.7/((150.5-V*0.5)/(V*0.8660254037844386)))))))+1.7320508075688773))*1.7320508075688773+(500-V))-365.8)/(284.7/(268.18-((650.5-(500-V))/1.7320508075688773)))));
[Vsol,fval,exitflag] = fzero(F_v,[0,100])
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