Hi everyone,
I'm trying to solve this EDO system, finding the solution for x(t) and p(t) with {k1,k2,b} symbolic variables and m=535:
m*x''(t)=-k1*(x(t)-p(t))-b*(x'(t)-p'(t))
k2*p(t)=k1*(x(t)-p(t))+b*(x'(t)-p'(t))
Initial Conditions would be:
x(0)=0
p(0)=0
x'(0)=6.3
Already tried with Wolfram Alpha and Matlab, both giving solutions with terms "Root[#1^3+ (k1 m + k2 m) #1^2 + b^2 k2 m #1 + b^2 k1 k2 m^2&, 1]" in which I don't understand what is represented. Examples attached in following pictures:
Matlab:
Seems like Maple will give an explicit solution without any Root's
Here's the commands
The full result in in the attached PDF
Here's how you could (try to) solve it:
So now we have X and P...
And that's where it becomes a little problematic. You have to take the inverse Laplace transform of a ratio of polynomes where the order of the denomonator polynome is 3. This is not easy, but apparently modern Maple can do it, as Mvenich shows. I've entered one of the two expressions in WolframAlpha, to find a similar expression involving the root() function:
Conclusion: there's no simple closed form.
However...
Success!
Luc
P.S. I suppose this timeline is more interesting:
