[
] : fluid density
[
] : dynamic viscosity
[
] : kinematic viscosity
[
] : velocity
: volume
Conservation of mass
- For a system:
![\[ \frac{d}{dt}M_{SYS}=0 \]](https://sp-ao.shortpixel.ai/client/q_glossy,ret_img,w_98,h_37/http://dprogrammer.org/wp-content/plugins/a3-lazy-load/assets/images/lazy_placeholder.gif "Rendered by QuickLaTeX.com")
- For a C.V. (Reynolds transport theorem):\]
![\[ \frac{d}{dt}M_{SYS}=0 \]](https://sp-ao.shortpixel.ai/client/q_glossy,ret_img,w_98,h_37/http://dprogrammer.org/wp-content/ql-cache/quicklatex.com-7de5c2ca26d404d5417c81705c339190_l3.png "Rendered by QuickLaTeX.com")
![\[\frac{\partial}{\partial t}\int_{CV}{\rho d\forall}+\int_{CS}{\rho \vec{V}\cdot \hat{n} dA}=0 \]](https://sp-ao.shortpixel.ai/client/q_glossy,ret_img,w_242,h_41/http://dprogrammer.org/wp-content/ql-cache/quicklatex.com-d3759b0283c2a334b810e6b7e916df5c_l3.png "Rendered by QuickLaTeX.com")
Differential form (\delta x\delta y\delta z):
![\[ \frac{\partial}{\partial t}\int_{CV}{\rho d\forall}=\frac{\rho}{\partial t} \delta x\delta y\delta z \]](https://sp-ao.shortpixel.ai/client/q_glossy,ret_img,w_184,h_41/http://dprogrammer.org/wp-content/ql-cache/quicklatex.com-dfadcb77276c51d2991dce32a02f46cb_l3.png "Rendered by QuickLaTeX.com")
Fluid Dynamics
Navier-Stokes Equation