![]() Features specific to OriginPro are marked with the PRO icon in this page. In addition to all of Origin's features, OriginPro offers advanced analysis tools and Apps for Peak Fitting, Surface Fitting, Statistics and Signal Processing. Take your data analysis to the next level with OriginPro. Connect with other applications such as MATLAB™, LabVIEW™ or Microsoft© Excel, or create custom routines within Origin using our scripting and C languages, embedded Python, or the R console. Extend the capabilities in Origin by installing free Apps available from our website. ![]() Origin graphs and analysis results can automatically update on data or parameter change, allowing you to create templates for repetitive tasks or to perform batch operations from the user interface, without the need for programming. Origin offers an easy-to-use interface for beginners, combined with the ability to perform advanced customization as you become more familiar with the application. ![]() Origin is the data analysis and graphing software of choice for over a million scientists and engineers in commercial industries, academia, and government laboratories worldwide. Browser Graph for Multichannel Data Exploration.Float Windows outside of Origin Interface.Extended Templates from OriginLab Website.For example, let’s change some properties of the above quiver plot. We can also set the labels and the title of the plot using the xlabel(), ylabel(), zlabel(), and title() function. By default, the value of the auto-scale factor is set to 0.9, but we can set it to any scalar value using the AutoScaleFactor. The autoscale is turned on by default, but we can turn it off using the AutoScale property. The arrowhead display is on by default, but we can turn it off using the ShowArrowHead property. By default, the color of the arrows is set to auto, but we can give them any color by using the name of the color and Color property.īy default, the line width is set to 0.5, but we can set it to any positive numeric value using the LineWidth property. ![]() We can also set other properties of the quiver3() function like the length of the arrows, line specifications, line width, arrowhead display, automatic scaling of arrow length, and scale factor.īy default, the arrow scaling factor scales the arrow so they won’t overlap, but we can also turn it off. Now the arrows will extend according to the three input coordinates rather than one coordinate. Instead of passing a single axis, we can also pass three axes, x, y, and z, in the quiver3() function. If the first input is a matrix, then the x coordinates of the arrows will be from 1 to the number of columns in the input matrix, and the y coordinates will be from 1 to the number of rows in the input matrix. If the first input is a vector, then the x coordinates of the arrows will be from 1 to the number of elements in the first input, and the y coordinates are all equal to 1. The last three inputs are the directional components, and the first input is the z-axis along which the directional components will be plotted. The size of all four inputs should be the same. We have to pass a minimum of four inputs in the quiver3() function to plot arrows with directional components specified by the last three inputs.
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