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== Matlab Code ==
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<pre>
% Homework 1.1 Hail Purdue
+
% Homework 1.1 Hail Purdue
%David Record
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%David Record
%September 3rd 2008
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%September 3rd 2008
  
%%Song Notes and Lyrics:
+
%%Song Notes and Lyrics:
%%http://www.purdue.edu/bands/media/Sounds/aamb/Hail%20Purdue%20Piano%20Sheet.pdf
+
%%http://www.purdue.edu/bands/media/Sounds/aamb/Hail%20Purdue%20Piano%20Sheet.pdf
  
%Lyrics
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%Lyrics
%Hail, to Old Purdue, All hail to our gold and black!
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%Hail, to Old Purdue, All hail to our gold and black!
  
%Notes:
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%Notes:
%E, F, G, A_, B_, C5, D5_, B
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%E, F, G, A_, B_, C5, D5_, B
  
%Corresponding Frequencies: http://www.phy.mtu.edu/~suits/notefreqs.html
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%Corresponding Frequencies: http://www.phy.mtu.edu/~suits/notefreqs.html
E  = 311.13; %HZ
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E  = 311.13; %HZ
F  = 349.23; %HZ
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F  = 349.23; %HZ
G  = 392.00; %HZ
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G  = 392.00; %HZ
A_  = 415.30; %HZ
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A_  = 415.30; %HZ
B_  = 466.16; %HZ
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B_  = 466.16; %HZ
C5  = 523.25; %HZ
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C5  = 523.25; %HZ
D5_ = 554.37; %HZ
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D5_ = 554.37; %HZ
B  = 493.3;  %HZ
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B  = 493.3;  %HZ
  
%Durations
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%Durations
delta = 0.00005; %As defined in class
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delta = 0.00005; %As defined in class
quarter = .25;  %Quarter Note
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quarter = .25;  %Quarter Note
half = .5;      %Half Note
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half = .5;      %Half Note
whole = 1;      %Whole Note
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whole = 1;      %Whole Note
eigth = .125;  %Eighth Note
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eigth = .125;  %Eighth Note
  
notes = [E, F, G, A_, B_, C5, C5, D5_, D5_, D5_, A_, B_, B, C5];
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notes = [E, F, G, A_, B_, C5, C5, D5_, D5_, D5_, A_, B_, B, C5];
durations = [half, quarter, quarter, (quarter+eighth), eighth, quarter, quarter, quarter, eighth, eighth, quarter, eigth, eigth, (half+quarter) ];
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durations = [half, quarter, quarter, (quarter+eighth), eighth, quarter, quarter, quarter, eighth, eighth, quarter, eigth, eigth, (half+quarter) ];
  
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%%% Song Unaltered %%%
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for counter = 1: length(notes)
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    t = 0:delta:durations(counter);
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    y = sin(2*pi*notes(counter)*t);
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    sound (y, 1/delta);
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end
  
x=1;
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%%% Twice as Fast %%%
for counter = 1: length(notes)
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for counter = 1: length(notes)
    t = 0:delta:durations(counter);
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    t = 0:delta:durations(counter)/2;
    y = sin(2*pi*notes(counter)*t);
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    y = sin(2*pi*notes(counter)*t);
    sound (y, 1/delta);
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    sound (y, 1/delta);
 +
end
  
end
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%%% y(t) = x(2t) %%% Doubles the Frequency of the notes
 +
for counter = 1: length(notes)
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    t = 0:delta:durations(counter);
 +
    y = sin(2*pi*notes(counter)*t*2);
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    sound (y, 1/delta);
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end
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</pre>
 +
[[Media:HailPurduex3_ECE301Fall2008mboutin.wav]]

Latest revision as of 06:04, 5 September 2008

% Homework 1.1 Hail Purdue
%David Record
%September 3rd 2008

%%Song Notes and Lyrics:
%%http://www.purdue.edu/bands/media/Sounds/aamb/Hail%20Purdue%20Piano%20Sheet.pdf

%Lyrics
%Hail, to Old Purdue, All hail to our gold and black!

%Notes:
%E, F, G, A_, B_, C5, D5_, B

%Corresponding Frequencies: http://www.phy.mtu.edu/~suits/notefreqs.html
E   = 311.13; %HZ
F   = 349.23; %HZ
G   = 392.00; %HZ
A_  = 415.30; %HZ
B_  = 466.16; %HZ
C5  = 523.25; %HZ
D5_ = 554.37; %HZ
B   = 493.3;  %HZ

%Durations
delta = 0.00005; %As defined in class
quarter = .25;  %Quarter Note
half = .5;      %Half Note
whole = 1;      %Whole Note
eigth = .125;  %Eighth Note

notes = [E, F, G, A_, B_, C5, C5, D5_, D5_, D5_, A_, B_, B, C5];
durations = [half, quarter, quarter, (quarter+eighth), eighth, quarter, quarter, quarter, eighth, eighth, quarter, eigth, eigth, (half+quarter) ];

%%% Song Unaltered %%%
for counter = 1: length(notes)
    t = 0:delta:durations(counter);
    y = sin(2*pi*notes(counter)*t);
    sound (y, 1/delta);
end

%%% Twice as Fast %%%
for counter = 1: length(notes)
    t = 0:delta:durations(counter)/2;
    y = sin(2*pi*notes(counter)*t);
    sound (y, 1/delta);
end

%%% y(t) = x(2t) %%% Doubles the Frequency of the notes
for counter = 1: length(notes)
    t = 0:delta:durations(counter);
    y = sin(2*pi*notes(counter)*t*2);
    sound (y, 1/delta);
end

Media:HailPurduex3_ECE301Fall2008mboutin.wav

Alumni Liaison

Ph.D. on Applied Mathematics in Aug 2007. Involved on applications of image super-resolution to electron microscopy

Francisco Blanco-Silva