Changes between Version 39 and Version 40 of u/erica/scratch4
- Timestamp:
- 02/16/16 20:20:19 (9 years ago)
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u/erica/scratch4
v39 v40 33 33 [[latex($\sum \Delta E_i*dV_i=E ~~~~~~(1)$)]] 34 34 35 where [[latex($E$)]] is the accretion energy fromthe time step, [[latex($\Delta E_i$)]] is the differential amount of E to be distributed in the ith cell, and [[latex($dV_i$)]] is the volume of the ith cell. As of now, the units don't balance in this equation. We then need to find a normalization constant that has units of 1/volume, which we will do next.35 where [[latex($E$)]] is the accretion energy over the time step, [[latex($\Delta E_i$)]] is the differential amount of E to be distributed in the ith cell, and [[latex($dV_i$)]] is the volume of the ith cell. As of now, the units don't balance in this equation. We then need to find a normalization constant that has units of 1/volume, which we will do next. 36 36 37 37 We want the amount of E in each cell to drop off smoothly with radius away from the sink. For this we choose a decaying exponential. Let,