How to find a 2 π periodic solution?
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How to find a 2 π periodic solution for the Equation?; x" + 2 x' + x =cos(t)
Also I need to find the solution to: x" + 2 x' + x =cos(t), x(0)=x'(0)=0
finally I need to plot the graph. Thanks for you help
Accepted Answer
Yu Jiang
on 4 Aug 2014
- The first approach is to use the Symbolic Math Toolbox (See documentation). In order to solve the differential equation x" + 2 x' + x =cos(t), you can use the function dsolve (See documentation for dsolve). For example,
>> syms x(t);
>> sol = dsolve('D2x+2*Dx+x = cos(t)', 't');
For the one with boundary conditions x" + 2 x' + x =cos(t), x(0)=x'(0)=0, you can try
>> syms x(t);
>> sol2 = dsolve('D2x+2*Dx+x = cos(t)', 'x(0)=0', 'Dx(0)=0');
To plot the answer stored in sol2, for example on the interval [0,10], you can do the following
>> t = linspace(0,10,1000);
>> plot(t,eval(sol2))
Notice that sol2 is a symbolic variable (See documentation for symbolic objects) , and therefore it needs to be evaluated before being executed. The way to do it is to use eval (See documentation for eval).
- Alternatively, you may want to consider numerical ordinary differential equation solvers, such as ode45 (See Documentation). Take a look at Examples 2 and 3 in the documentation. Example 2 shows how to handle higher order terms and Example 3 illustrates how to deal with time-varying terms.
More Answers (1)
Roger Wohlwend
on 4 Aug 2014
1 vote
Why don't you take a pen and a pencil and solve the equation analytically? In fact it is quite easy ....
2 Comments
John D'Errico
on 4 Aug 2014
While it is not an answer, I agree. +1
Patrick Johnson
on 12 Oct 2021
It is possible that the pen and paper result is in need of an efficient check.
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