Changes between Version 4 and Version 5 of u/madams/3DCDMVisualizationInstructions
- Timestamp:
- 10/09/14 10:16:24 (10 years ago)
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u/madams/3DCDMVisualizationInstructions
v4 v5 23 23 = 3D Column Density Map (CDM) Plots = 24 24 25 Column density maps integrate the density over the time interval for which your run was produced along each axis. Essentially you see whatever you plan to simulate evolves with time as some sort of kinematic cross section down x, y or z axis. One can create a "corner" or 3D box figure of these cross sections that we call column density maps, as illustrated by '''Figures 7 and 8'''. The procedure is like so:25 Column density maps integrate the density over the time interval for which your run was produced along each axis. Essentially you see whatever you plan to simulate evolves with time as some sort of kinematic cross section down x, y or z axis. One can create a "corner" or 3D box figure of these cross sections that we call column density maps, as illustrated by '''Figures 6 and 7'''. The procedure is like so: 26 26 27 27 1. Hide all but one data set. Go to operators +/- > Transforms > Elevate. Ensure that you elevate with zero height as shown in Figure 2. … … 39 39 [[Image(4.png, 75%)]] 40 40 41 '''Figure 4.''' When you initially open up the transform operator on your slice. Again, your data set reverts back to being "ready to draw" green. 41 '''Figure 4.''' When you initially open up the transform operator on your slice. Again, your data set reverts back to being "ready to draw" green. The linear tab provides a series of inputs for a rotation matrix. For mass1, simple let it be projected by the identity matrix. The other two masses will require a different transform. 42 42 43 [[Image(6.png, 75%)]] 44 45 '''Figure 5.''' The linear tab provides a series of inputs for a rotation matrix. For mass1, simple let it be projected by the identity matrix. The other two masses will require a different transform. 46 47 3. 43 3. Now we are done with mass1. We will move onto mass2 (keeping mass3 hidden). Similarly see step 1 to elevate the .bov. Now we're going to transform it with the following matrix shown in Figure 48 44 49 45 [[Image(mass2better.png, 75%)]] 50 46 51 '''Figure 6.'''47 '''Figure 5.''' 52 48 53 49 [[Image(allthemasses.png, 75%)]] 54 50 55 '''Figure 7.'''51 '''Figure 6.''' 56 52 57 53 [[Image(donzeo.png, 75%)]] 58 54 59 '''Figure 8.'''55 '''Figure 7.''' 60 56 61 57