Kurt's Octave Assignment: Difference between revisions
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=Useful Octave Templates= |
=Useful Octave Templates= |
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=====Fourier Series===== |
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clf; %Clear Figure |
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t=0:.01:10; %Limits of the graph |
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T=2*pi %Definition of the period |
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M=1000 %Number of iterations to undergo |
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sum1=0; %Initialize the sum to 0<br> |
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%----------FOURIER SERIES----------% |
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for m=1:1:M, %For m=1, increment by 1 until you get to M |
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if(m!=0) |
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sum1 = sum1 + ((2/(pi*m))-(2/(pi*m))*cos(m*pi))*sin(m*2*pi/T*t); |
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end |
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end<br> |
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%---------------PLOT---------------% |
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plot(t,real(sum1),'b-') |
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title('Fourier Series Representation of a Wave') |
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xlabel('time (seconds)') |
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ylabel('Function') |
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grid on;<br> |
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legend(num2str(M) ' terms ') |
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print("squarewave.png","-dpng") % Prints the plot to a png file called squarewave.png |
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Latest revision as of 16:04, 1 November 2010
Useful Octave Templates
Fourier Series
clf; %Clear Figure t=0:.01:10; %Limits of the graph T=2*pi %Definition of the period M=1000 %Number of iterations to undergo sum1=0; %Initialize the sum to 0
%----------FOURIER SERIES----------% for m=1:1:M, %For m=1, increment by 1 until you get to M if(m!=0) sum1 = sum1 + ((2/(pi*m))-(2/(pi*m))*cos(m*pi))*sin(m*2*pi/T*t); end end
%---------------PLOT---------------% plot(t,real(sum1),'b-') title('Fourier Series Representation of a Wave') xlabel('time (seconds)') ylabel('Function') grid on;
legend(num2str(M) ' terms ') print("squarewave.png","-dpng") % Prints the plot to a png file called squarewave.png