File:Parabolic trajectory.svg
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| Description | Illustration of a parabolic trajectory. |
| Date | 05:58, 20 December 2007 (UTC) |
| Source | self-made with MATLAB. Tweaked in Inkscape. |
| Author | Oleg Alexandrov |
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I, the copyright holder of this work, release this work into the public domain. This applies worldwide. In some countries this may not be legally possible; if so: I grant anyone the right to use this work for any purpose, without any conditions, unless such conditions are required by law.
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Source code ( MATLAB)
% illustration of a parabolic trajectory function main() L=0.8; s=0.1; q=-0.4; N=100; arrow_size = 0.1; sharpness = 20; arrow_type = 1; arrlen = 0.3; % arrow length tiny = 0.01; ball_radius = 0.05; X=linspace(-L, L, N); Y =L^2 - X.^2; Xl = linspace(-L-s, L+s, N); % KSmrq's colors red = [0.867 0.06 0.14]; blue = [0, 129, 205]/256; green = [0, 200, 70]/256; yellow = [254, 194, 0]/256; white = 0.99*[1, 1, 1]; black = [0, 0, 0]; gray = 0.5*white; lw = 2.3; figure(1); clf; hold on; axis equal; axis off; plot(X, Y, 'linewidth', lw, 'linestyle', '--', 'colour', blue); arrow([q-tiny, L^2-q^2], [q+arrlen-tiny, L^2-q^2-2*q*arrlen], lw, arrow_size, sharpness, arrow_type, red); ball(q, L^2 - q^2, ball_radius, gray) plot(Xl, 0*Xl, 'linewidth', 2*lw, 'colour', black); %saveas(gcf, 'Parabolic_trajectory.eps', 'psc2') plot2svg('Parabolic_trajectory.svg'); function ball(x, y, radius, colour) % draw a ball of given uniform colour Theta=0:0.1:2*pi; X=radius*cos(Theta)+x; Y=radius*sin(Theta)+y; H=fill(X, Y, colour); set(H, 'EdgeColor', [0, 0, 0]); function arrow(start, stop, thickness, arrow_size, sharpness, arrow_type, colour) % Function arguments: % start, stop: start and end coordinates of arrow, vectors of size 2 % thickness: thickness of arrow stick % arrow_size: the size of the two sides of the angle in this picture -> % sharpness: angle between the arrow stick and arrow side, in degrees % arrow_type: 1 for filled arrow, otherwise the arrow will be just two segments % color: arrow colour, a vector of length three with values in [0, 1] % convert to complex numbers i=sqrt(-1); start=start(1)+i*start(2); stop=stop(1)+i*stop(2); rotate_angle=exp(i*pi*sharpness/180); % points making up the arrow tip (besides the "stop" point) point1 = stop - (arrow_size*rotate_angle)*(stop-start)/abs(stop-start); point2 = stop - (arrow_size/rotate_angle)*(stop-start)/abs(stop-start); if arrow_type==1 % filled arrow % plot the stick, but not till the end, looks bad t=0.5*arrow_size*cos(pi*sharpness/180)/abs(stop-start); stop1=t*start+(1-t)*stop; plot(real([start, stop1]), imag([start, stop1]), 'LineWidth', thickness, 'Colour', colour); % fill the arrow H=fill(real([stop, point1, point2]), imag([stop, point1, point2]), colour); set(H, 'EdgeColor', 'none') else % two-segment arrow plot(real([start, stop]), imag([start, stop]), 'LineWidth', thickness, 'Colour', colour); plot(real([stop, point1]), imag([stop, point1]), 'LineWidth', thickness, 'Colour', colour); plot(real([stop, point2]), imag([stop, point2]), 'LineWidth', thickness, 'Colour', colour); end
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