Main thing you doesn't decribed in video is that how you build dielectric modules function in origin? What are the constants, variablez, upper and lower limits.
Dear Amber, the peak describes the conductivity relaxation in materials. Height of the peak M", peak position is omega Max and peak shape is beta. The value of beta typically ranges from 0.5 to 1 depending on materials may be liquid or solid. In addition how to write a peak function in origin software, you can check origin manual.
Okay. I said that I note your comments. I will upload a video on that later. The video I suggested about modulus spectra fitting using Harvilak Negami not the exponential decay function you have suggested. I will do it in this month.
I am trying to fit my modulus data but unfortunately couldn't do it.
Main thing you doesn't decribed in video is that how you build dielectric modules function in origin? What are the constants, variablez, upper and lower limits.
Dear Amber, the peak describes the conductivity relaxation in materials. Height of the peak M", peak position is omega Max and peak shape is beta. The value of beta typically ranges from 0.5 to 1 depending on materials may be liquid or solid. In addition how to write a peak function in origin software, you can check origin manual.
Tomorrow i will upload a video how to make a make a model function in origin with fit parameters
Excellent tutorial Sir 🙏
Thank You so much..
Sir, may you upload video on fitting of this equation in electric modulus
Q(t) = exp*[-(t/tm)^B]
Thanks, you can check my other video on electric modulus using Harvilak Negami Function. Okay I note your comment.
@@physicsdoneright Sir, I have checked but there is no fitting like this of expression which I have mentioned here.
Okay. I said that I note your comments. I will upload a video on that later. The video I suggested about modulus spectra fitting using Harvilak Negami not the exponential decay function you have suggested. I will do it in this month.
@@physicsdoneright Okay Sir
Hi saty good work
Thanks