Changes between Version 6 and Version 7 of u/madams/3DCDMVisualizationInstructions
- Timestamp:
- 10/09/14 10:21:13 (10 years ago)
Legend:
- Unmodified
- Added
- Removed
- Modified
-
u/madams/3DCDMVisualizationInstructions
v6 v7 41 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 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 (as a series of row vectors): {(0, 0, 1, 0),(1, 0, 0, 0),(0, 1, 0, 0),(0, 0, 0, 1)}. Now draw mass2. It should align snug next to mass1 along the appropriate axis .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 (as a series of row vectors): {(0, 0, 1, 0),(1, 0, 0, 0),(0, 1, 0, 0),(0, 0, 0, 1)}. Now draw mass2. It should align snug next to mass1 along the appropriate axis (see '''Figure 5'''). 44 44 45 45 [[Image(mass2better.png, 75%)]] 46 46 47 '''Figure 5.''' 47 '''Figure 5.''' Elevating and transforming the mass2 data set. How it is drawn can be seen in the Window. 48 49 4. Now we are done with both mass1 and mass2, so we can finish up similarly with mass3. Use the same transformation matrix as for mass2, however click the invert linear transform tab. 48 50 49 51 [[Image(allthemasses.png, 75%)]] 50 52 51 '''Figure 6.''' The box is now complete 53 '''Figure 6.''' The box is now complete! 52 54 53 55 [[Image(donzeo.png, 75%)]]