This is the equation I want to write in matlab, so I can have a solution for Q:
Q(t)=(P1(t)-P2)/R +C(dP1/dt) I know P1(t) is a time varing parameter and I know its pattern in time P2 is a costant, R is a costant knows also C. I started implementing it using ode45 to solve differential equations of 1st order and noticed it is not the right manner, because I want to know Q and in the defination of ode45 it finds exactly the first order derivative. Can someone help me by giving adive on how to procced?This is the equation I want to write in matlab, so I can have a solution for Q:
Q(t)=(P1(t)-P2)/R +C(dP1/dt) I know P1(t) is a time varing parameter and I know its pattern in time P2 is a costant, R is a costant knows also C. I started implementing it using ode45 to solve differential equations of 1st order and noticed it is not the right manner, because I want to know Q and in the defination of ode45 it finds exactly the first order derivative. Can someone help me by giving adive on how to procced? This is the equation I want to write in matlab, so I can have a solution for Q:
Q(t)=(P1(t)-P2)/R +C(dP1/dt) I know P1(t) is a time varing parameter and I know its pattern in time P2 is a costant, R is a costant knows also C. I started implementing it using ode45 to solve differential equations of 1st order and noticed it is not the right manner, because I want to know Q and in the defination of ode45 it finds exactly the first order derivative. Can someone help me by giving adive on how to procced? differential equations, first order differential equation MATLAB Answers — New Questions

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