(New page: == Code == == Audio ==)
 
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== Code ==
 
== Code ==
  
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<pre>
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%Miles Whittaker
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%ECE301
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%HW1.2
  
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clear
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clc
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%Open Jpforward
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[JPF, sample_size, bits] = wavread('R:\My Documents\Purdue\ECE301\Jpforward.wav');
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%Normal
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wavplay(JPF, sample_size);
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%Reverse
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JPR = flipud(JPF);
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wavplay(JPR, sample_size);
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wavwrite(JPR,44100,32,'R:\My Documents\Purdue\ECE301\Jpreverse.wav');
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%Reverse slow
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wavplay(JPR, sample_size/2);
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wavwrite(JPR,44100/2,32,'R:\My Documents\Purdue\ECE301\Jpreverse_slow.wav');
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</pre>
  
 
== Audio ==
 
== Audio ==

Revision as of 03:28, 5 September 2008

Code

%Miles Whittaker
%ECE301
%HW1.2

clear
clc

%Open Jpforward
[JPF, sample_size, bits] = wavread('R:\My Documents\Purdue\ECE301\Jpforward.wav');

%Normal
wavplay(JPF, sample_size);

%Reverse
JPR = flipud(JPF);
wavplay(JPR, sample_size);
wavwrite(JPR,44100,32,'R:\My Documents\Purdue\ECE301\Jpreverse.wav');

%Reverse slow
wavplay(JPR, sample_size/2);
wavwrite(JPR,44100/2,32,'R:\My Documents\Purdue\ECE301\Jpreverse_slow.wav');

Audio

Alumni Liaison

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

Dr. Paul Garrett