(Sound Files)
Line 1: Line 1:
== Sound Files ==
+
==Sound Files==
 
[[Media:serekson_hailpurdue1_ECE301Fall2008mboutin.wav]]
 
[[Media:serekson_hailpurdue1_ECE301Fall2008mboutin.wav]]
 
[[Media:serekson_hailpurdue2_ECE301Fall2008mboutin.wav]]
 
[[Media:serekson_hailpurdue2_ECE301Fall2008mboutin.wav]]
 +
 +
==Matlab Code==
 +
<pre>
 +
%Spencer Erekson
 +
%ECE 301 Homework 1 Problem 1
 +
%September 4, 2008
 +
 +
delta=1/20000;
 +
 +
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 +
%Normal Speed
 +
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 +
 +
A  = sin(2*pi*(0:delta:1)*220.000);
 +
Bb = sin(2*pi*(0:delta:1)*233.082);
 +
B  = sin(2*pi*(0:delta:1)*246.942);
 +
C  = sin(2*pi*(0:delta:1)*261.626);
 +
Db = sin(2*pi*(0:delta:1)*277.183);
 +
D  = sin(2*pi*(0:delta:1)*293.665);
 +
Eb = sin(2*pi*(0:delta:1)*311.127);
 +
E  = sin(2*pi*(0:delta:1)*329.628);
 +
F  = sin(2*pi*(0:delta:1)*349.228);
 +
Gb = sin(2*pi*(0:delta:1)*369.994);
 +
G  = sin(2*pi*(0:delta:1)*391.995);
 +
 +
%an array of the notes
 +
notes=[A,B,Db,D,E,Gb,Gb,G,G,G,D,E,F,Gb];
 +
 +
sound(notes,1/delta);
 +
 +
wavwrite(notes,1/delta,32,'serekson_hailpurdue1.wav');
 +
 +
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 +
%Twice Speed
 +
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 +
 +
A  = sin(2*2*pi*(0:delta:.5)*220.000);
 +
Bb = sin(2*2*pi*(0:delta:.5)*233.082);
 +
B  = sin(2*2*pi*(0:delta:.5)*246.942);
 +
C  = sin(2*2*pi*(0:delta:.5)*261.626);
 +
Db = sin(2*2*pi*(0:delta:.5)*277.183);
 +
D  = sin(2*2*pi*(0:delta:.5)*293.665);
 +
Eb = sin(2*2*pi*(0:delta:.5)*311.127);
 +
E  = sin(2*2*pi*(0:delta:.5)*329.628);
 +
F  = sin(2*2*pi*(0:delta:.5)*349.228);
 +
Gb = sin(2*2*pi*(0:delta:.5)*369.994);
 +
G  = sin(2*2*pi*(0:delta:.5)*391.995);
 +
 +
notes=[A,B,Db,D,E,Gb,Gb,G,G,G,D,E,F,Gb];
 +
 +
sound(notes,1/delta);
 +
 +
wavwrite(notes,1/delta,32,'serekson_hailpurdue2.wav');
 +
 +
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 +
%Twice Frequency
 +
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 +
 +
A  = sin(2*pi*(0:delta:1)*220.000);
 +
Bb = sin(2*pi*(0:delta:1)*233.082);
 +
B  = sin(2*pi*(0:delta:1)*246.942);
 +
C  = sin(2*pi*(0:delta:1)*261.626);
 +
Db = sin(2*pi*(0:delta:1)*277.183);
 +
D  = sin(2*pi*(0:delta:1)*293.665);
 +
Eb = sin(2*pi*(0:delta:1)*311.127);
 +
E  = sin(2*pi*(0:delta:1)*329.628);
 +
F  = sin(2*pi*(0:delta:1)*349.228);
 +
Gb = sin(2*pi*(0:delta:1)*369.994);
 +
G  = sin(2*pi*(0:delta:1)*391.995);
 +
 +
notes=[A,B,Db,D,E,Gb,Gb,G,G,G,D,E,F,Gb];
 +
 +
sound(notes,1/delta);
 +
 +
wavwrite(notes,1/delta,32,'serekson_hailpurdue3.wav');
 +
</pre>

Revision as of 12:47, 4 September 2008

Sound Files

Media:serekson_hailpurdue1_ECE301Fall2008mboutin.wav Media:serekson_hailpurdue2_ECE301Fall2008mboutin.wav

Matlab Code

%Spencer Erekson
%ECE 301 Homework 1 Problem 1
%September 4, 2008

delta=1/20000;

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%Normal Speed
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

A  = sin(2*pi*(0:delta:1)*220.000);
Bb = sin(2*pi*(0:delta:1)*233.082);
B  = sin(2*pi*(0:delta:1)*246.942);
C  = sin(2*pi*(0:delta:1)*261.626);
Db = sin(2*pi*(0:delta:1)*277.183);
D  = sin(2*pi*(0:delta:1)*293.665);
Eb = sin(2*pi*(0:delta:1)*311.127);
E  = sin(2*pi*(0:delta:1)*329.628);
F  = sin(2*pi*(0:delta:1)*349.228);
Gb = sin(2*pi*(0:delta:1)*369.994);
G  = sin(2*pi*(0:delta:1)*391.995);

%an array of the notes 
notes=[A,B,Db,D,E,Gb,Gb,G,G,G,D,E,F,Gb];

sound(notes,1/delta);

wavwrite(notes,1/delta,32,'serekson_hailpurdue1.wav');

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%Twice Speed
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

A  = sin(2*2*pi*(0:delta:.5)*220.000);
Bb = sin(2*2*pi*(0:delta:.5)*233.082);
B  = sin(2*2*pi*(0:delta:.5)*246.942);
C  = sin(2*2*pi*(0:delta:.5)*261.626);
Db = sin(2*2*pi*(0:delta:.5)*277.183);
D  = sin(2*2*pi*(0:delta:.5)*293.665);
Eb = sin(2*2*pi*(0:delta:.5)*311.127);
E  = sin(2*2*pi*(0:delta:.5)*329.628);
F  = sin(2*2*pi*(0:delta:.5)*349.228);
Gb = sin(2*2*pi*(0:delta:.5)*369.994);
G  = sin(2*2*pi*(0:delta:.5)*391.995);

notes=[A,B,Db,D,E,Gb,Gb,G,G,G,D,E,F,Gb];

sound(notes,1/delta);

wavwrite(notes,1/delta,32,'serekson_hailpurdue2.wav');

%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%Twice Frequency
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

A  = sin(2*pi*(0:delta:1)*220.000);
Bb = sin(2*pi*(0:delta:1)*233.082);
B  = sin(2*pi*(0:delta:1)*246.942);
C  = sin(2*pi*(0:delta:1)*261.626);
Db = sin(2*pi*(0:delta:1)*277.183);
D  = sin(2*pi*(0:delta:1)*293.665);
Eb = sin(2*pi*(0:delta:1)*311.127);
E  = sin(2*pi*(0:delta:1)*329.628);
F  = sin(2*pi*(0:delta:1)*349.228);
Gb = sin(2*pi*(0:delta:1)*369.994);
G  = sin(2*pi*(0:delta:1)*391.995);

notes=[A,B,Db,D,E,Gb,Gb,G,G,G,D,E,F,Gb];

sound(notes,1/delta);

wavwrite(notes,1/delta,32,'serekson_hailpurdue3.wav');

Alumni Liaison

Abstract algebra continues the conceptual developments of linear algebra, on an even grander scale.

Dr. Paul Garrett