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(1) |
\frac{\partial (\rho_A \, \phi) }{\partial t} + \nabla (\rho_A \, {\bf u}_A) = 0 |
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(2) |
\int_V \, \frac{\partial (\rho_A \, \phi) }{\partial t} \, dV = - \int_V \, \nabla (\rho_A \, {\bf u}_A) \, dV = - \int_{\partial V} \, \rho \, {\bf u}_A \, d {\bf A} |
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(3) |
V \cdot (\rho_A \, \phi) = \delta \, m_A |
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(4) |
V \cdot (\phi \, \sum_\alpha \rho_{A,\alpha} \, s_\alpha) = \delta \, m_A |
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