Changes between Version 18 and Version 19 of u/SurfacePressureApprox
 Timestamp:
 10/18/13 17:30:38 (11 years ago)
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u/SurfacePressureApprox
v18 v19 66 66 [[latex($M_{init} = \frac{4}{3}\pi (R_0^3R_{BE}^3) \rho_0$)]] 67 67 68 I used mathematica to numerically solve the equation of motion for a uniform sphere as given in Carroll and Ostlie, and checked the solution was correct against a result they published in that book. For the 1/50 case , the function R(t) looks like,68 I used mathematica to numerically solve the equation of motion for a uniform sphere as given in Carroll and Ostlie, and checked the solution was correct against a result they published in that book. For the 1/50 case in a box of r = 90, the function R(t) looks like, 69 69 70 70 [[Image(rff.png)]]