User:Ginevra Cochran/Formal Report/MATLAB

X = 4; hydrogen = [650,653,653.2, 653, 652.9;486.05,486.05,485.9,485.95,486;434.4,434.1,434,434.4,433.8;403.9,403.95,404,404,404.05] deuterium = [652.9,652,652.1,651.9,651.9;485.9,485.95,486,486,485.9;433.9,433.9,433.9,433.7,433.8] %Y1 = mean(hydrogen(1,:)); Y1 = [mean(hydrogen(2,:))-std(hydrogen(2,:))/sqrt(5),mean(hydrogen(2,:)),mean(hydrogen(2,:))+std(hydrogen(2,:))/sqrt(5)] Y2 = [mean(deuterium(2,:))-std(deuterium(2,:))/sqrt(5),mean(deuterium(2,:)),mean(deuterium(2,:))+std(deuterium(2,:))/sqrt(5)] %Y3 = mean(hydrogen(3,:)); %Y4 = mean(hydrogen(4,:)); %Y = [Y1 Y2 Y3 Y4] %Z1 = mean(deuterium(1,:)); % Z2 = mean(deuterium(2,:)) %Z3 = mean(deuterium(3,:)); %Z = [Z1 Z2 Z3 0] %E1 = std(hydrogen(1,:))/sqrt(5); E2 = std(hydrogen(2,:))/sqrt(5) %E3 = std(hydrogen(3,:))/sqrt(5); %E4 = std(hydrogen(4,:))/sqrt(5); %E = [E1 E2 E3 E4] %F1 = std(deuterium(1,:))/sqrt(5); F2 = std(deuterium(2,:))/sqrt(5) % F3 = std(deuterium(3,:))/sqrt(5); %F = [F1 F2 F3] plot(X,Y1(1),'rx',X,Y1(2),'rx',X,Y1(3),'rx',X,Y2(1),'bo',X,Y2(2),'bo',X,Y2(3),'bo')