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dspr.m
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dspr.m
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function A = dspr(n,mode)
%
% A = dspr(n,mode)
%
% Show the normal dynamical modes of oscillation
% of a linear one-dimensional mass-spring system
%
% n -- number of masses
%
% mode = 'f' -- both ends fixed (default if omitted)
% 'd' -- one free and one fixed end
% 'u' -- both ends free
%
% A -- incidence matrix
%
% See also DYST, CSPR, GSPR, MSPR,
if nargin ==1, mode = 'f'; end
global buttonid;
buttonid = 0;
icons = ['text(.5,.5,''pause'' ,''Horiz'',''center'')'
'text(.5,.5,''input'' ,''Horiz'',''center'')'
'text(.5,.5,''stop'' ,''Horiz'',''center'')'];
callbacks = ['button(1)'
'button(2)'
'button(3)'];
presstype = ['toggle'
'flash '
'flash '];
hf = figure(1);
clf;
bg = btngroup(hf,'GroupID','b','ButtonId',['p';'i';'s'],...
'IconFunctions',icons,'GroupSize',[1 3],...
'CallBack',callbacks,'Position',[.3 0 .4 .07],...
'PressType',presstype);
pa = 5525; tol = .00001;
dt = .5;
A = diag(ones(n+1,1)) - diag(ones(n,1),-1);
A(:,n+1) = [];
switch mode
case 'd'
A(1,:) = [];
Z0 = []; Zn = repmat(n+1,n,1);
V0 = []; Vn = [1:n]';
nn = n+1; n0 = 0; n1 = n+2;
case 'u'
A(n+1,:) = []; A(1,:) = [];
Z0 = []; Zn = [];
V0 = []; Vn = [];
nn = n; n0 = 0; n1 = n+1;
otherwise
Z0 = repmat(0,n,1); Zn = repmat(n+1,n,1);
V0 = [1:n]'; Vn = [1:n]';
nn = n+2; n0 = -1; n1 = n+2;
end
K = A' * A;
[E,D] = eig(K);
d = diag(D);
[d,I] = sort(d);
D = diag(d);
E = E(:,I);
l = sqrt(d);
L = diag(l);
zerol = abs(l) < tol;
zeroL = diag(zerol);
disp('Eigenvalues');
disp(' ');
disp(d');
disp('Eigenvectors');
disp(' ');
disp(E);
disp('Frequencies');
disp(' ');
disp(l');
r = .5;
ax = axes('Position',[.15 .15 .75 .75]);
W = repmat(1:n,n,1);
V = W';
Z = [Z0,W,Zn];
U = [V0,V,Vn];
axis([0 n+1 n0 n1])
sprs = zeros(1,nn);
for j=1:n,
hold on; sprs(j) = plot([j j],[Z(j,1),Z(j,nn)],'erasemode','xor');hold off;
end
hold on;
plt = plot(U,Z,'.','erasemode','xor','markersize',24);
hold off;
s = 0;
stopit = 0;
while stopit == 0
switch buttonid
case 1
buttonid = 0;
while buttonid == 0, pause(.2); end
buttonid = 0;
case 2
rst = 1;
disp(['Currently r = ',num2str(r),' dt = ',num2str(dt)]);
keyboard
buttonid = 0;
case 3
stopit = 1;
buttonid = 0;
end
s = s + dt;
M = V + E * r * (sin(L*s) + zeroL*s);
Z = [Z0,M',Zn];
%keyboard
for j=1:n,
set(sprs(j),'ydata',[Z(j,1),Z(j,nn)]);
end
for j=1:nn,
set(plt(j),'ydata',Z(:,j));
end
drawnow
k = 0;
for i=1:1000*pa, k = 1-k; end
end