Version 1 (modified by 9 years ago) ( diff ) | ,
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Having a kinetic energy (per unit mass) at r that is higher than would have been acquired from freefall alone, i.e. solving the equation:
again where,
ke(r) | Distance (pc) | Error (%) |
10*freefall | 6.8x10-7 | 30 |
100*freefall | 7.4x10-6 | 30 |
1000*freefall | 7.5x10-5 | 30 |
10*freefall | .00002 | .01 |
100*freefall | .0002 | .01 |
1000*freefall | .002 | .01 |
Attachments (7)
- accretionluminosity1.png (37.8 KB ) - added by 9 years ago.
- accretionluminosity2.png (25.7 KB ) - added by 9 years ago.
- accretionluminosity.nb (45.8 KB ) - added by 9 years ago.
- 4cellkernel1.png (4.0 KB ) - added by 9 years ago.
- 40cellkernel1.png (4.6 KB ) - added by 9 years ago.
- dx1kernel.png (4.6 KB ) - added by 9 years ago.
- dxpt1kernel.png (3.9 KB ) - added by 9 years ago.
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