(New page: % Sharifah Fareena Aljunid % BME 301 Homework 1 % Professor Mimi Boutin % Part 1 clear clc delta = 0.00005; % A loop is made to separate Question 1 into 3 parts for p = 1:3 if p ==2 ...) |
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Revision as of 07:40, 19 January 2011
% Sharifah Fareena Aljunid % BME 301 Homework 1 % Professor Mimi Boutin
% Part 1 clear clc delta = 0.00005;
% A loop is made to separate Question 1 into 3 parts for p = 1:3
if p ==2 bpm = 112*2; % indicating the tune will be twice as fast else bpm = 112; % normal beats per minute end % Calculation to determine the length of the in seconds H = 0:delta:(2*60/bpm); Q = 0:delta:(1*60/bpm); E = 0:delta:(0.5*60/bpm); DQ = 0:delta:(1.5*60/bpm); % Part 3, rescaling the frequency of A4 if p == 3 fa = 880; % the frequency is double the original as y(t) = x(2t) else fa = 440; % original frequency of A4 end % Calculation of the frequency of any note related to the frequency of A4 fG = 2^(-2/12)*fa; fC = 2^(3/12)*fa; fBf = 2^(1/12)*fa; fDf = 2^(4/12)*fa; % Calculation of all note length using a sine wave GQ = sin(2*pi*fG*Q); BfQ = sin(2*pi*fBf*Q); CDQ = sin(2*pi*fC*DQ); DfE = sin(2*pi*fDf*E); CH = sin(2*pi*fC*H); % The tune of the song to be played z = [GQ, BfQ, CDQ, GQ, BfQ, DfE, CH, GQ, BfQ, CDQ, BfQ, GQ]; sound(z,1/delta); % Adjust song according to what is asked for in Question 1 if p == 1 wavwrite(z,1/delta,32,'Normal melody') elseif p == 2 wavwrite(z,1/delta,32,'Faster melody') else wavwrite(z,1/delta,32,'Transformation x(2t)') end
end