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Why I am getting undefined function or variable x error here?
% Solution of second-order differential equation
% The function diff2(x,y) is created to evaluate the diff. equation
% the name of the m-file is diff2.m
% the function is defined as:
%
function xdot = diff2(t,x)
is = 2;
c = 50e-6; L = 1/32; r = 10;
k1 = 1/c ; % 1/C
k2 = 1/L ; % 1/L
k3 = 1/(r*c); % 1/RC
xdot(1) = k2*x(2);
xdot(2) = k1*is - k1*x(1) - k3*x(2);
% solution of second-order differential equation
% the function diff2(x,y) is created to evaluate
% the differential equation
% the name of m-file is diff2.m
%
% Transient analysis of RLC circuit using ode function
% numerical solution
t0 = 0;
tf = 30*e^-3;
x0 = [0 20]; % Initial conditions
[t,x] = ode23('diff2',t0,tf,x0);
% Second column of matrix x represent capacitor voltage
plot(t,x(:,2))
xlabel('Time, s'), ylabel('Capacitor voltage, V')
text(0.01, 7, 'State Variable Approach')

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Alan Stevens
Alan Stevens 2020년 11월 5일

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Like so (the function must come last in the script):
% solution of second-order differential equation
% the function diff2(x,y) is created to evaluate
% the differential equation
% the name of m-file is diff2.m
%
% Transient analysis of RLC circuit using ode function
% numerical solution
t0 = 0;
tf = 0.03;
x0 = [0 20]; % Initial conditions
[t,x] = ode23(@diff2,[t0 tf],x0);
% Second column of matrix x represent capacitor voltage
plot(t,x(:,2))
xlabel('Time, s'), ylabel('Capacitor voltage, V')
text(0.01, 7, 'State Variable Approach')
%
function xdot = diff2(t,x)
is = 2;
c = 50e-6; L = 1/32; r = 10;
k1 = 1/c ; % 1/C
k2 = 1/L ; % 1/L
k3 = 1/(r*c); % 1/RC
xdot = zeros(2,1);
xdot(1) = k2*x(2);
xdot(2) = k1*is - k1*x(1) - k3*x(2);
end

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AVIJIT NEMO
AVIJIT NEMO 2020년 11월 5일
Thanks.. It Worked. Are you related to Electrical Field??
Alan Stevens
Alan Stevens 2020년 11월 5일
" Are you related to Electrical Field??" ?????
AVIJIT NEMO
AVIJIT NEMO 2020년 11월 5일
I mean are you related to Electrical or Electronics Engineering? I have some other matlab problems then i may contact you if you have no problems.
Alan Stevens
Alan Stevens 2020년 11월 5일
I'm afraid my knowledge of electricity in general is pretty much limited to Ohm's law!
Alan Stevens
Alan Stevens 2020년 11월 5일
Any further contact should be done via the MATLAB forum.

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추가 답변 (2개)

KSSV
KSSV 2020년 11월 5일

0 개 추천

Save the below code in a file as myfunction.m and run it.
function myfunction()
% solution of second-order differential equation
% the function diff2(x,y) is created to evaluate
% the differential equation
% the name of m-file is diff2.m
%
% Transient analysis of RLC circuit using ode function
% numerical solution
t0 = 0;
tf = 30*e^-3;
x0 = [0 20]; % Initial conditions
[t,x] = ode23(@diff2,[t0 tf],x0);
% Second column of matrix x represent capacitor voltage
plot(t,x(:,2))
xlabel('Time, s'), ylabel('Capacitor voltage, V')
text(0.01, 7, 'State Variable Approach')
end
% Solution of second-order differential equation
% The function diff2(x,y) is created to evaluate the diff. equation
% the name of the m-file is diff2.m
% the function is defined as:
%
function xdot = diff2(t,x)
is = 2;
c = 50e-6; L = 1/32; r = 10;
k1 = 1/c ; % 1/C
k2 = 1/L ; % 1/L
k3 = 1/(r*c); % 1/RC
xdot(1) = k2*x(2);
xdot(2) = k1*is - k1*x(1) - k3*x(2);
end
KSSV
KSSV 2020년 11월 5일

0 개 추천

Save the below code in to a file say main.m.
% solution of second-order differential equation
% the function diff2(x,y) is created to evaluate
% the differential equation
% the name of m-file is diff2.m
%
% Transient analysis of RLC circuit using ode function
% numerical solution
t0 = 0;
tf = 30*e^-3;
x0 = [0 20]; % Initial conditions
[t,x] = ode23(@diff2,[t0 tf],x0);
% Second column of matrix x represent capacitor voltage
plot(t,x(:,2))
xlabel('Time, s'), ylabel('Capacitor voltage, V')
text(0.01, 7, 'State Variable Approach')
Save the below code into a function in a file diff2.
% Solution of second-order differential equation
% The function diff2(x,y) is created to evaluate the diff. equation
% the name of the m-file is diff2.m
% the function is defined as:
%
function xdot = diff2(t,x)
is = 2;
c = 50e-6; L = 1/32; r = 10;
k1 = 1/c ; % 1/C
k2 = 1/L ; % 1/L
k3 = 1/(r*c); % 1/RC
xdot(1) = k2*x(2);
xdot(2) = k1*is - k1*x(1) - k3*x(2);
end
After saving the above two files, now run the file in main.m.

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AVIJIT NEMO
AVIJIT NEMO 2020년 11월 5일
main
Error using odearguments (line 93)
DIFF2 must return a column vector.
Error in ode23 (line 114)
odearguments(FcnHandlesUsed, solver_name, ode, tspan, y0, options, varargin);
Error in main (line 11)
[t,x] = ode23(@diff2,[t0 tf],x0);
Now I am getting this error. Can you please resolve this?

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카테고리

도움말 센터File Exchange에서 Ordinary Differential Equations에 대해 자세히 알아보기

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질문:

AVIJIT NEMO
AVIJIT NEMO
2020년 11월 5일

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Alan Stevens
Alan Stevens
2020년 11월 5일

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