Searched refs:momentum (Results 1 – 7 of 7) sorted by relevance
| /honee/qfunctions/ |
| H A D | newtonian_state.h | 15 CeedScalar momentum[3]; member
26 for (int i = 0; i < 3; i++) U[i + 1] = s.momentum[i]; in UnpackState_U()
66 for (CeedInt i = 0; i < 3; i++) Y.velocity[i] = U.momentum[i] / U.density; in StatePrimitiveFromConservative()
78 dY.velocity[i] = (dU.momentum[i] - s.Y.velocity[i] * dU.density) / s.U.density; in StatePrimitiveFromConservative_fwd()
151 for (int i = 0; i < 3; i++) U.momentum[i] = U.density * Y.velocity[i]; in StateConservativeFromPrimitive()
163 dU.momentum[i] = dU.density * s.Y.velocity[i] + s.U.density * dY.velocity[i]; in StateConservativeFromPrimitive_fwd()
178 const CeedScalar e_kinetic = .5 * Dot3(U.momentum, U.momentum) / U.density; in StateEntropyFromConservative()
184 for (int i = 0; i < 3; i++) V.S_momentum[i] = U.momentum[i] / p; in StateEntropyFromConservative()
192 const CeedScalar e_kinetic = .5 * Dot3(s.U.momentum, s.U.momentum) / s.U.density; in StateEntropyFromConservative_fwd()
193 …const CeedScalar de_kinetic = (Dot3(s.U.momentum, dU.momentum) - e_kinetic * dU.density) / s.U.de… in StateEntropyFromConservative_fwd()
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| H A D | newtonian.h | 230 …_force[5] = {0, s.U.density * g[0], s.U.density * g[1], s.U.density * g[2], Dot3(s.U.momentum, g)}; in RHSFunction_Newtonian()
295 …_force[5] = {0, s.U.density * g[0], s.U.density * g[1], s.U.density * g[2], Dot3(s.U.momentum, g)}; in IFunction_Newtonian_Integrand()
406 …ce[5] = {0, ds.U.density * g[0], ds.U.density * g[1], ds.U.density * g[2], Dot3(ds.U.momentum, g)}; in IJacobian_Newtonian_Integrand()
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| /honee/qfunctions/spanstats/ |
| H A D | turbulence.h | 66 v[TURB_MEAN_MOMENTUM_X][i] = wdetJ * s.U.momentum[0]; in ChildStatsCollection()
67 v[TURB_MEAN_MOMENTUM_Y][i] = wdetJ * s.U.momentum[1]; in ChildStatsCollection()
68 v[TURB_MEAN_MOMENTUM_Z][i] = wdetJ * s.U.momentum[2]; in ChildStatsCollection()
69 v[TURB_MEAN_MOMENTUMFLUX_XX][i] = wdetJ * s.U.momentum[0] * s.Y.velocity[0]; in ChildStatsCollection()
70 v[TURB_MEAN_MOMENTUMFLUX_YY][i] = wdetJ * s.U.momentum[1] * s.Y.velocity[1]; in ChildStatsCollection()
71 v[TURB_MEAN_MOMENTUMFLUX_ZZ][i] = wdetJ * s.U.momentum[2] * s.Y.velocity[2]; in ChildStatsCollection()
72 v[TURB_MEAN_MOMENTUMFLUX_YZ][i] = wdetJ * s.U.momentum[1] * s.Y.velocity[2]; in ChildStatsCollection()
73 v[TURB_MEAN_MOMENTUMFLUX_XZ][i] = wdetJ * s.U.momentum[0] * s.Y.velocity[2]; in ChildStatsCollection()
74 v[TURB_MEAN_MOMENTUMFLUX_XY][i] = wdetJ * s.U.momentum[0] * s.Y.velocity[1]; in ChildStatsCollection()
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| /honee/doc/ |
| H A D | theory.md | 20 In equations {eq}`eq-ns`, $\rho$ represents the volume mass density, $U$ the momentum density (defi…
45 \leftarrow\textrm{ momentum density}\\
264 2. momentum stabilization $\tau_m$
325 …e linearly degenerate, carrying a contact wave (temperature) and transverse components of momentum.
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| H A D | runtime_options.md | 429 - Stabilization momentum constant, $C_m$
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| H A D | examples.md | 22 …inear constant-pressure wave that transports temperature and transverse momentum at the fluid velo…
545 …e in HONEE for pure advection-diffusion, which holds density $\rho$ and momentum density $\rho \bm…
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| /honee/src/ |
| H A D | setupts.c | 103 reaction_force[w * dim + j] -= r[node].momentum[j]; in Surface_Forces_NS()
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