Can anybody help me understanding this mentioned line of code?

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lurkingleo
lurkingleo on 19 Nov 2016
Commented: lurkingleo on 20 Nov 2016
Nx=100;
FldLngt=8e-3;
DeltLngt=FldLngt/Nx;
--->PDz2(i,j)=(P(i-1,j-1)+P(i,j-1)+P(i+1,j-1)+P(i-1,j)+P(i+1,j)+P(i-1,j+1)+P(i,j+1)+P(i+1,j+1)-8*P(i,j))/(DeltLngt^2*2);<---
PDt2(i,j)=C(i,j)^2*PDz2(i,j);
where
Nx=grid points in x direction
FldLngt= length of simulation field
Delt is for Delta
PDz2= 2nd derivation of pressure with respect to z direction
PDt2=2nd derivation of pressure with respect to time t
I know that it is wave equation calculated using laplacian mask but i couldn't understand the denominator in mentioned line.

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Accepted Answer

Roger Stafford
Roger Stafford on 20 Nov 2016
The numerator is the Laplacian under the assumption that there is unit distance spacing between adjacent grid points of the pressure array P. The ‘DeltLngt^2’ in the denominator corrects this so that it becomes the Laplacian assuming the actual distance values between adjacent grid points in both the x and y directions. I don’t know what the ‘2’ means in the denominator.
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lurkingleo
lurkingleo on 20 Nov 2016
thanks for helping me out..This '2' was confusing me also. Can you please explain these lines too i couldnt find which equation of pressure is applied here.
PDt1(i,j)=PDt2(i,j)*DeltT+PDt1(i,j); P(i,j)=PDt1(i,j)*DeltT+P(i,j);
where DeltT=0.04e-6; %time step;

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