After some thinking I tried the Laminar Flow Rate equation (pi*d^4*P)/(128*u*l). However I am still not getting the correct results. I have attached a sketch of the setup I had in mind. I am trying to figure out the flow rate through the needle device. I know from actual experiments that the...
I am trying to find a first principle model in order to calculate the flow rate of the following setup. A bottle with water (density = 1000 kg/m^3) is on a lab stand, and has rubber tubing at the end of the bottle coming down to the benchtop. The top of the water is 17 inches above the benchtop...
I am looking at a cannula, but I think when looking at the basic physical properties, it will act similiar to a pipe. Hence the references in the questions. Thanks for the comment
I am trying to figure out a first principle model for the following:
A steel cannula/pipe (hollow tube) is gripped by a force covering 1/3 of the cannula/pipe length. What is the deformation of the cannula/pipe due to the force.
Cannula Length L = 0.75 inches, gripped length = 0.25inches...
