@Nur Nadhirah Syed Malik, See attached.
I have left out some parts, because this sounds like a homework assignment, and you will learn by filling in the unknown parts.
Hi, can anyone help me to program a code for the equation with initial and boundary conditions using finite difference method
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Hi, I really need help from anyone help me with how to do a program code for governing equation with initial and boundary condition. Also, I want to plot graph velocity(u) against radius (r). The radius will be the x-axis and the range should be from 0 to 1 only. I will be really appreciated if anyone can help me. Thank you so much. Inside the coding there must be include discrerization of the governing equation. If u need , I wiil send it here right away.
The governing equation is:
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William Rose
le 31 Déc 2021
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William Rose
le 31 Déc 2021
A script is attached that implements the equaitons in the document I posted earlier.
The script generates two figures, shown below:
William Rose
le 31 Déc 2021
I believe that the constant 
in your equation corresponds to kinematic viscosity: 
=viscosity/density. I also believe that the units for A0 and A1 are pressure/length, and that the terms A0+A1*cos wt correspond to the pressure difference divided by the length of the tube. Are those beliefs correct? The Womersley number for pulsatile flow is 
. If I am correct about 
, then the Womersley number for this problem (in which R=1) is 
.
in your equation corresponds to kinematic viscosity: =viscosity/density. I also believe that the units for A0 and A1 are pressure/length, and that the terms A0+A1*cos wt correspond to the pressure difference divided by the length of the tube. Are those beliefs correct? The Womersley number for pulsatile flow is . If I am correct about , then the Womersley number for this problem (in which R=1) is .Voir également
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