Archivo:Simple harmonic oscillator.gif

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Simple_harmonic_oscillator.gif ‎(116 × 359 píxeles; tamaño de archivo: 52 kB; tipo MIME: image/gif, bucleado, 15 frames, 1,1s)

DescripciónSimple harmonic oscillator.gif	Illustration of a en:Simple harmonic oscillator
Fecha	24 de junio de 2007, 02:42
Fuente	self-made with en:Matlab. Converted to gif animation with the en:ImageMagick convert tool (see the specific command later in the code).
Autor	Oleg Alexandrov
Otras versiones	Damped spring.gif: Damped version
GIF desarrollo InfoField	Este diagrama fue creado con MATLAB
Código fuente InfoField	MATLAB code function main() % colors red = [0.867 0.06 0.14]; blue = [0 129 205]/256; green = [0 200 70]/256; black = [0 0 0]; white = [1 1 1]0.99; cardinal = [196 30 58]/256; cerulean = [0 123 167]/256; denim = [21 96 189]/256; cobalt = [0 71 171]/256; pblue = [0 49 83]/256; teracotta= [226 114 91]/256; tene = [205 87 0]/256; wall_color = pblue; spring_color = cobalt; mass_color = tene; a=0.65; bmass_color = amass_color+(1-a)black; % linewidth and fontsize lw=2; fs=20; ww = 0.5; % wall width ms = 0.25; % the size of the mass sw=0.1; % spring width curls = 8; A = 0.2; % the amplitude of spring oscillations B = -1; % the y coordinate of the base state (the origin is higher, at the wall) % Each of the small lines has length l l = 0.05; N = 15; % times per oscillation No = 1; % number of oscillations for i = 1:NNo % set up the plotting window figure(1); clf; hold on; axis equal; axis off; t = 2pi(i-1)/(N-0)+pi/2; % current time H= Asin(t) + B; % position of the mass % plot the spring from Start to End Start = [0, 0]; End = [0, H]; [X, Y]=do_plot_spring(Start, End, curls, sw); plot(X, Y, 'linewidth', lw, 'color', spring_color); % Here we cheat. We modify the point B so that the mass is attached exactly at the end of the % spring. This should not be necessary. I am too lazy to to the exact calculation. K = length(X); End(1) = X(K); End(2) = Y(K); % plot the wall from which the spring is hanging plot_wall(-ww/2, ww/2, l, lw, wall_color); % plot the mass at the end of the spring X=[-ms/2 ms/2 ms/2 -ms/2 -ms/2 ms/2]+End(1); Y=[0 0 -ms -ms 0 0]+End(2); H=fill(X, Y, mass_color, 'EdgeColor', bmass_color, 'linewidth', lw); % the bounding box Sx = -0.4ww; Sy = B-A-ms+0.05; Lx = 0.4ww+l; Ly=l; axis([Sx, Lx, Sy, Ly]); plot(Sx, Sy, '', 'color', white); % a hack to avoid a saveas to eps bug saveas(gcf, sprintf('Spring_frame%d.eps', 1000+i), 'psc2') %save the current frame disp(sprintf('Spring_frame%d', 1000+i)); %show the frame number we are at pause(0.1); end % The following command was used to create the animated figure. % convert -antialias -loop 10000 -delay 7 -compress LZW Spring_frame10* Simple_harmonic_oscillator.gif function [X, Y]=do_plot_spring(A, B, curls, sw); % plot a 3D spring, then project it onto 2D. theta controls the angle of projection. % The string starts at A and ends at B % will rotate by theta when projecting from 1D to 2D theta=pi/6; Npoints = 500; % spring length D = sqrt((A(1)-B(1))^2+(A(2)-B(2))^2); X=linspace(0, 1, Npoints); XX = linspace(-pi/2, 2picurls+pi/2, Npoints); Y=-swcos(XX); Z=swsin(XX); % b gives the length of the small straight segments at the ends % of the spring (to which the wall and the mass are attached) b= 0.05; % stretch the spring in X to make it of length D - 2b N = length(X); X = (D-2b)(X-X(1))/(X(N)-X(1)); % shift by b to the right and add the two small segments of length b X=[0, X+b X(N)+2b]; Y=[Y(1) Y Y(N)]; Z=[Z(1) Z Z(N)]; % project the 3D spring to 2D M=[cos(theta) sin(theta); -sin(theta) cos(theta)]; N=length(X); for i=1:N; V=M[X(i), Z(i)]'; X(i)=V(1); Z(i)=V(2); end % shift the spring to start from 0 X = X-X(1); % now that we have the horisontal spring (X, Y) of length D, % rotate and translate it to go from A to B Theta = atan2(B(2)-A(2), B(1)-A(1)); M=[cos(Theta) -sin(Theta); sin(Theta) cos(Theta)]; N=length(X); for i=1:N; V=M[X(i), Y(i)]'+A'; X(i)=V(1); Y(i)=V(2); end function plot_wall(S, E, l, lw, wall_color) % Plot a wall from S to E. no=20; spacing=(E-S)/(no-1); plot([S, E], [0, 0], 'linewidth', 1.8lw, 'color', wall_color); V=l(0:0.1:1); for i=0:(no-1) plot(S+ i*spacing + V, V, 'color', wall_color) end

Yo, el titular de los derechos de autor de esta obra, lo libero al dominio público. Esto aplica en todo el mundo.
En algunos países esto puede no ser legalmente factible; si ello ocurriese:
Concedo a cualquier persona el derecho de usar este trabajo para cualquier propósito, sin ningún tipo de condición al menos que éstas sean requeridas por la ley.

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Historial del archivo

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	Fecha y hora	Dimensiones	Usuario	Comentario
actual	03:12 24 jun 2007	116 × 359 (52 kB)	Oleg Alexandrov	tweak
	03:10 24 jun 2007	157 × 362 (51 kB)	Oleg Alexandrov	Reverted to earlier revision
	03:10 24 jun 2007	116 × 359 (7 kB)	Oleg Alexandrov	tweak
	02:42 24 jun 2007	157 × 362 (51 kB)	Oleg Alexandrov	{{Information \|Description= \|Source=self-made with en:Matlab. Converted to gif animation with the en:ImageMagik convert tool. \|Date= ~~~~~ \|Author= Oleg Alexandrov }} {{PD-self}}