0 개 추천

I am wanting to add in a line like the graph below, but cannot seem to get the black line to stop going upwards. The gradient of the line is 4, please see my code and help!
clearvars;
close all;
clc;
% Extracted data
L = [0.2, 0.21, 0.22, 0.23, 0.24, 0.25]; % Length in µm
G = [0.002073593, 0.002034555, 0.00198774, 0.00194322, 0.00191650, 0.00188695]; % G in µm⁻¹
V = [33.4790, 35.0453, 35.5131, 35.7370, 36.2533, 36.3155]; % V in µm/s
% Plotting
figure;
hold on;
% Plot G vs V as a regular line plot
plot(V, G, 'o', 'LineWidth', 2, 'Color', 'b', 'MarkerFaceColor', 'b', 'DisplayName', 'Data');
% Add a black line with gradient = 4 starting from the origin
m = 4; % Gradient
V_line = linspace(0, max(V)+1, 100); % Start from 0
G_line = m * V_line;
plot(V_line, G_line, 'k-', 'LineWidth', 2, 'DisplayName', 'Gradient = 4 (from origin)');
% Formatting the plot
xlabel('Velocity V (µm/s)', 'FontSize', 30);
ylabel('Thermal Gradient G (µm⁻¹)', 'FontSize', 30);
title('G vs V for Varying Separation Distances', 'FontSize', 35);
legend('Location', 'northeast', 'FontSize', 20);
grid on;
xlim([min(0, min(V)-0.5), max(V)+0.5]);
ylim([min(0, min(G)-0.00001), max(G)+0.00001]);

댓글 수: 3
이전 댓글 1개 표시 이전 댓글 1개 숨기기

Torsten
Torsten 2025년 4월 24일
편집: Torsten 2025년 4월 24일
Ran in:
Ran in:
The gradient of the line in the graphics (in [°C / s]) is approximately
(2.5e-3-1.4e-3)/(44-25)
ans = 5.7895e-05
Walter Roberson
Walter Roberson 2025년 4월 24일
Your question does not indicate where you want the black line to stop ?
Cris LaPierre
Cris LaPierre 2025년 4월 24일
Your code does not recreate the image shown.
Note that you have defined the equation of the line to go from 0 to 37.3155 along X and 0 to 4*(36.3155 + 1), or 149.2620, along Y:
% Add a black line with gradient = 4 starting from the origin
m = 4; % Gradient
V_line = linspace(0, max(V)+1, 100); % Start from 0
G_line = m * V_line;
plot(V_line, G_line, 'k-', 'LineWidth', 2, 'DisplayName', 'Gradient = 4 (from origin)');

댓글을 달려면 로그인하십시오.

이 질문에 답변하려면 로그인하십시오.

답변 (1개)

Sam Chak
Sam Chak 2025년 4월 24일
Ran in:

0 개 추천

Ran in:
Hi @Harvey
Could you add a thick black line as indicated by the dotted lines? The dotted lines serve as a tracing task, helping you become familiar with forming lines, which is a crucial step in learning to plot in MATLAB.
clearvars;
close all;
clc;
% Extracted data
L = [0.2, 0.21, 0.22, 0.23, 0.24, 0.25]; % Length in µm
G = [0.002073593, 0.002034555, 0.00198774, 0.00194322, 0.00191650, 0.00188695]; % G in µm⁻¹
V = [33.4790, 35.0453, 35.5131, 35.7370, 36.2533, 36.3155]; % V in µm/s
% Plotting
figure;
hold on;
%% ------- Added or modified :: Start -------
lgd = legend('');
Warning: Ignoring extra legend entries.
title(lgd, 'L (cm)')
% Plot G vs V as a regular line plot
plot(V(1), G(1), 'o', 'LineWidth', 2, 'Color', 'r', 'MarkerFaceColor', 'r', 'DisplayName', '20');
plot(V(2), G(2), 'o', 'LineWidth', 2, 'Color', 'y', 'MarkerFaceColor', 'y', 'DisplayName', '21');
plot(V(3), G(3), 'o', 'LineWidth', 2, 'Color', 'g', 'MarkerFaceColor', 'g', 'DisplayName', '22');
plot(V(4), G(4), 'o', 'LineWidth', 2, 'Color', 'c', 'MarkerFaceColor', 'c', 'DisplayName', '23');
plot(V(5), G(5), 'o', 'LineWidth', 2, 'Color', 'b', 'MarkerFaceColor', 'b', 'DisplayName', '24');
plot(V(6), G(6), 'o', 'LineWidth', 2, 'Color', 'm', 'MarkerFaceColor', 'm', 'DisplayName', '25');
xLine = [25 45.8];
yLine = [1.4e-3 2.5e-3];
line(xLine, yLine, 'Color', 'k', 'LineStyle', '--')
lgd.String(7) = '';
lgd.Location = 'northeast';
text(26.3, 2.3e-3, 'Stable', 'FontSize', 12)
text(45.3, 1.3e-3, 'Unstable', 'FontSize', 12)
xlim([25 50])
ylim([1e-3 2.5e-3])
%% ------- Added or modified :: End -------
% Add a black line with gradient = 4 starting from the origin
m = 4; % Gradient
V_line = linspace(0, max(V)+1, 100); % Start from 0
G_line = m * V_line;
% plot(V_line, G_line, 'k-', 'LineWidth', 2, 'DisplayName', 'Gradient = 4 (from origin)');
% Formatting the plot
xlabel('Velocity V (µm/s)');
ylabel('Thermal Gradient G (µm⁻¹)');
title('G vs V for Varying Separation Distances');
% legend('Location', 'northeast', 'FontSize', 20);
grid on;
% xlim([min(0, min(V)-0.5), max(V)+0.5]);
% ylim([min(0, min(G)-0.00001), max(G)+0.00001]);

댓글 수: 2
없음 표시 없음 숨기기

Cris LaPierre
Cris LaPierre 2025년 4월 25일
Ran in:
Ran in:
Same code, just leveraging some of the capabilities of MATLAB to consolidate.
% Extracted data
L = [0.2, 0.21, 0.22, 0.23, 0.24, 0.25]; % Length in µm
G = [0.002073593, 0.002034555, 0.00198774, 0.00194322, 0.00191650, 0.00188695]; % G in µm⁻¹
V = [33.4790, 35.0453, 35.5131, 35.7370, 36.2533, 36.3155]; % V in µm/s
% Plotting
% Plot G vs V as a regular line plot
p=gscatter(V, G, L*100,'rygcbm');
hold on
plot([25 45.8], [1.4e-3 2.5e-3], 'k--')
hold off
% Formatting the plot
xlabel('Velocity V (µm/s)');
ylabel('Thermal Gradient G (µm⁻¹)');
title('G vs V for Varying Separation Distances');
lgd = legend(p,'Location', 'northeast');
title(lgd,"L (cm)")
grid on;
text(26.3, 2.3e-3, 'Stable', 'FontSize', 12)
text(45.3, 1.3e-3, 'Unstable', 'FontSize', 12)
xlim([25 50]);
ylim([1 2.5]*1e-3);
Sam Chak
Sam Chak 2025년 4월 25일
Thank you, @Cris LaPierre, I learned new stuff today.

댓글을 달려면 로그인하십시오.

카테고리

도움말 센터File Exchange에서 Scatter Plots에 대해 자세히 알아보기

제품

릴리스

R2024b

태그

질문:

Harvey
Harvey
2025년 4월 24일

댓글:

Sam Chak
Sam Chak
2025년 4월 25일

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by