<m>D=m_m \cdot \gamma = m_m \left( G \frac{m_p}{{d_m}^2} - \theta^{1/3} \left( \frac{m_s}{m_m} \right)^{1/3} \cdot \frac{{v_m}^2}{d_p} \right)</m> | <m>D=m_m \cdot \gamma = m_m \left( G \frac{m_p}{{d_m}^2} - \theta^{1/3} \left( \frac{m_s}{m_m} \right)^{1/3} \cdot \frac{{v_m}^2}{d_p} \right)</m> |