Thank you for this, my third-year project is writing an algorithm to optimize WIFI coverage in buildings and this is a perfect starting point given my Electromagnetic course doesn't begin until the second semester. Life saver
It does not know who make this BDO but this video's superb I am belonging to a small village in India and I am not able to join Coaching Centre but this video help me a lot in my preparation thanks you too thanks Google and thank you very much who make this video please keep on making such type of video its really inspire us towards science
Good video, although there's a small mistake when you discuss p polarisation. When you give the equations for the reflected and transmitted fields, on the slide you use the the the perpendicular fresnel coefficients when it should be the parallel (you give the parallel coefficients on the slide, it's just a typo ;-)). Still, really good video!
Question,:when the angle of incidence is zero, there is no physical difference between S- and P- polarization. Why there is 180 degree shift only for S- ?
Hello good video, can you help me plz? Estimate the approximate output coupling power losses (in percent) from Fresnel reflection at normal incidence in a phosphor/air interface, where the phosphor has an index of 2.3 and air has a refractive index of 1.
Thank you very much! Your video really helps me understanding this material. Due to this COVID-19 pandemic, I have to study from home, BUT my lecture doesn't give any explanation of the material :((
Thanks a lot for the explenation, I was reading my notes without understanding anything and you saved me ☺
Thank you for this, my third-year project is writing an algorithm to optimize WIFI coverage in buildings and this is a perfect starting point given my Electromagnetic course doesn't begin until the second semester. Life saver
It does not know who make this BDO but this video's superb I am belonging to a small village in India and I am not able to join Coaching Centre but this video help me a lot in my preparation thanks you too thanks Google and thank you very much who make this video please keep on making such type of video its really inspire us towards science
Great explanation, clear 3d graphs. Thank you!
man.. this video was actually very good! thanks.
THIS IS LEGENDARY! GOD BLESS YOU!
At 13:00 how can electric field vector is not perpendicular to propagation vector k?
you saved my semester, thx
Good video, although there's a small mistake when you discuss p polarisation. When you give the equations for the reflected and transmitted fields, on the slide you use the the the perpendicular fresnel coefficients when it should be the parallel (you give the parallel coefficients on the slide, it's just a typo ;-)).
Still, really good video!
Thank you so much! This was a great visualisation! :)
Question,:when the angle of incidence is zero, there is no physical difference between S- and P- polarization. Why there is 180 degree shift only for S- ?
i write my optics midterm in 30 min so thanks for this !
My Hero. Thank you!
Hello good video, can you help me plz?
Estimate the approximate output coupling power losses (in percent) from Fresnel reflection at normal incidence in a phosphor/air interface, where the phosphor has an index of 2.3 and air has a refractive index of 1.
الله اكبر
الحمد لله
لاحول ولا قوة الا بالله
اللهم صل وسلم وبارك على سيدنا و نبينا محمد
I am Looking for double glazed window
Thank you, this helped a lot
what happened to 3.7! i realy wanted to see that one
what's the text you're using? Provide link?
Thank you very much! Your video really helps me understanding this material. Due to this COVID-19 pandemic, I have to study from home, BUT my lecture doesn't give any explanation of the material :((
where is your book
i wanna read it
Awesome!
good work sir.....
Thanks a lot
You are amazing
Hello kridnix ,send me this Powerpoint document , thanks a lot
Thank you !
thank you
Good video
Thanks sir
A nice video