3 | | This problem involves colliding two ellipsoidal cylinders essentially head on where the separation between the left and right flows is an arbitrary interface defined by a normal and a series of sine waves. |
| 3 | This problem involves colliding two ellipsoidal cylinders essentially head on where the separation between the left and right flows is an arbitrary interface defined by a normal and a series of sine waves. |
| 4 | == Run Parameters == |
| 5 | |
| 6 | These runs were all performed on a cube of length 44 pc |
| 7 | |
| 8 | || Run || Density || Velocity || Temperature || Resolution || Angle || RunTime || |
| 9 | || A || 1 || 21 || 5014 || 64 || 10 || 10.7 Myr |
| 10 | || B || 1 || 2.1 || 5014 || 64 || 10 || 100.7 Myr |
| 11 | || C || 10 || 21 || 160.6 || 64 || 10 || 10.7 Myr |
| 12 | || D || 10 || 2.1 || 160.6 || 64 || 10 || 100.7 Myr |
| 13 | || E || 20 || 21 || 100 || 64 || 10 || 10.7 Myr |
| 14 | |
| 15 | |
| 16 | Computational scales follow from a length scale of 1 pc, a Temperature scale of 1 K, and a Density scale of 1 part/cc |
| 17 | || TIMESCALE || 339631473950335 || |
| 18 | || LSCALE || 3.085680300000000E+018 || |
| 19 | || RSCALE || 1.672621580000000E-024 || |
| 20 | || VELSCALE || 9085.37793659026 || |
| 21 | || PSCALE || 1.380650300000000E-016 || |
| 22 | || NSCALE || 1.00000000000000 || |
| 23 | || BSCALE || 3.314644173409178E-009 || |
| 24 | || TEMPSCALE || 1.00000000000000 || |
| 25 | || SCALEGRAV || 1.287482066849589E-002 || |