Hello,
I am currently using a Fortran program to run a simulation which involves an explicit differentiation loop. The program currently plots simulation data at specified time intervals using a subroutine with another program. I'd like to have the program also output data files at these...
Well I don't know if it's possible for them to use monochromatic light. The only data we were provided with were a few movies of these things coming out of the bath, all the film thickness data we have is from simulations, I'd just like to have the plots match up with the videos. I figured...
Hmm...maybe it would be of some aid if I elaborated on my situation further.
I am trying to simulate the evaporation of a fluid on a flat mirror plate. As the fluid evaporates (which it does non-uniformly as the plate is removed from the bath) there are colors observed on the plate. In...
If you have the software on your pc, there should be a handful of useful tutorials built in.
Also there's some useful stuff on http://www.youtube.com/watch?v=GdW2SCTCCDE"
Most libraries use the Inter-Library Loan system, if your library doesn't have much I would try using something like that. If you don't have access to a university library it's going to be difficult to find a lot of scholarly journals.
I'm sorry about how i worded this, I'm an engineer and not a physicist so this stuff isn't native to me.
My issue is what an observer would see (i.e. what color) when there are multiple wavelengths that interfere at one point if the film is illuminated with white light.
My question concerns thin films of varying thickness. I have a basic understanding of thin film interference, and understand the effects of thickness on wavelength, and that with increasing thickness color fringes will be evident. I understand that the color fringes come from:
n*t = m*\lambda...