H=[2.5;3.7;4.5;5.3;6.5;7.5;8.5;10.5;12.5;14.5;17.5;20.5;23.5;26.5];
g=[8.38;10.08;11.34;12.183;14.1;13.46;14.5;16.55;18.06;19.08;21.617;23.253;25.414;26.988];
m=[8.067;9.983;10.66;11.983;13.02;13.52;14.35;15.74;17.6;18.7;20.983;22.383;25.014;25.957];
errg=[0.194,0.643,0.413,0.452,0.503,0.162,0.438,0.544,0.258,0.293,0.385,0.354,0.353,0.372];
errm=[0.512,0.291,0.12,0.376,0.16,0.402,0.112,0.338,0.297,0.447,0.241,0.186,0.641,0.424];
f=fit(H,g,'power1');
% make a green line for the residual, using NaNs to break it into segments:
% its xdata is [H(1) H(1) NaN H(2) H(2) NaN ...]
% its ydata is [g(1) f(H(1)) NaN g(H(2)) H(2) NaN ...]
residual_xdata = [H H NaN(numel(H),1)].';
residual_ydata = [g f(H) NaN(numel(H),1)].';
h_residual = plot(residual_xdata(:),residual_ydata(:),'g','LineWidth',2);
hold on
% plot the other two using "regular" plot() instead of curvefit plot() to
% have more control over the line properties:
h_f = plot(H,f(H),'-r','LineWidth',2);
h_g = plot(H,g,'bo','MarkerFaceColor','b','MarkerSize',4);
hold off
set(gca,'Fontsize',12)
title('מרחק פגיעה כדור זכוכית כתלות בגובה המגלשה')
xlabel('גובה H')
ylabel('מרחק פגיעה')
% specify the line handles and location in legend():
legend([h_g h_f h_residual],{'גרף התאמה','נתוני מדידות','residual'},'Location','southeast')
% axis([0,max(H)+1,0,max(g)+1])
% for demonstration purposes, set the xlim and ylim to see it better:
axis([5 10 10 15])
grid on
