Euler's equation in the differential form for the motion of liquids is given by

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Euler's equation in the differential form for the motion of liquids is given by

A $\frac {dp}{\rho} - gdz+ \nu d\nu = 0$

B$$\frac {dp}{\rho} gdz- \nu d\nu = 0$+$

C $\frac {dp}{\rho} + gdz+ \nu d\nu = 0$

D\pdp- gdz+ \nu d\nu = 0

Answer:

\frac {dp}{\rho} + gdz+ \nu d\nu = 0

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Euler's equation in the differential form for the motion of liquids is given by

$\frac {dp}{\rho} + gdz+ \nu d\nu = 0$

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