![SOLVED: Determine the mean velocity relative to the maximum velocity for Poiseuille flow. The velocity profile for Poiseuille flow is given by: v = -(a/r^2). The mean velocity can be obtained by SOLVED: Determine the mean velocity relative to the maximum velocity for Poiseuille flow. The velocity profile for Poiseuille flow is given by: v = -(a/r^2). The mean velocity can be obtained by](https://cdn.numerade.com/ask_images/3901d4dc637a4739aa111129bd81df7c.jpg)
SOLVED: Determine the mean velocity relative to the maximum velocity for Poiseuille flow. The velocity profile for Poiseuille flow is given by: v = -(a/r^2). The mean velocity can be obtained by
![Prove that the average velocity is half of the maximum velocity in circular pipe with steady laminar flow. Prove that the average velocity is half of the maximum velocity in circular pipe with steady laminar flow.](http://www.prajval.in:8080/PrajvalServicesV1.0/service/Image/FM139.jpg)
Prove that the average velocity is half of the maximum velocity in circular pipe with steady laminar flow.
![Water | Free Full-Text | Analytical Formula for the Mean Velocity Profile in a Pipe Derived on the Basis of a Spatial Polynomial Vorticity Distribution Water | Free Full-Text | Analytical Formula for the Mean Velocity Profile in a Pipe Derived on the Basis of a Spatial Polynomial Vorticity Distribution](https://www.mdpi.com/water/water-13-01372/article_deploy/html/images/water-13-01372-g022.png)
Water | Free Full-Text | Analytical Formula for the Mean Velocity Profile in a Pipe Derived on the Basis of a Spatial Polynomial Vorticity Distribution
![Prove that the average velocity is half of the maximum velocity in circular pipe with steady laminar flow. Prove that the average velocity is half of the maximum velocity in circular pipe with steady laminar flow.](http://www.prajval.in:8080/PrajvalServicesV1.0/service/Image/FM140.jpg)