Dual resonant coils (both primary and secondary resonant and loose coupled), Have 2 resonant modes. When comparing the voltage or current of the 2 coils, the first mode is in phase. While the second higher frequency mode, is 180 degrees out of phase. Partly this is explained by frequency splitting, but why do the phases change?
simply explained: The electric field energies transform back and forth, changing their polarities while doing so. While the capacitor discharges its (di)electric field, it charges up the coil with magnetic field energy. and while the coil magnetic field discharges, it charges up the (di)electric field of the capacitor. This cycle continues until resistance has transformed the energy into heat.
Resistance transforms energy into heat? I'm not sure how 'energy' is defined, but resistance/friction controls how fast current flow. Heating or lighting is a by-product of current flowing thru resistance. Electrons do not get consumed. The very simple capacitors shuffling demo proves that here th-cam.com/video/SE-AiC9yiFc/w-d-xo.html
Система "равновесная" , какого хрена конденсатор выбран начальной и конечной точкой сжатия пружины ? - если это параллельный резонанс то это глупо , полюса меняются местами , представление не правильное а без него не понять физическую сущность процесса , формулы никогда не дадут понять суть !
electric resonance simply explained: The electric field energies transform back and forth, changing their polarities while doing so. While the capacitor discharges its (di)electric field, it charges up the coil with magnetic field energy. and while the coil magnetic field discharges, it charges up the (di)electric field of the capacitor. This cycle continues until resistance has transformed the energy into heat.
He's undoubtedly the best Physics teacher ever!
That swing analogy is golden-thank you sir
Dual resonant coils (both primary and secondary resonant and loose coupled),
Have 2 resonant modes.
When comparing the voltage or current of the 2 coils,
the first mode is in phase.
While the second higher frequency mode, is 180 degrees out of phase.
Partly this is explained by frequency splitting, but why do the phases change?
this man emanates pure wholesomeness
Oh my god
That was one of the best lessons I've got, thank you so much
Best concept ever! Loved it!
simply explained:
The electric field energies transform back and forth, changing their polarities while doing so.
While the capacitor discharges its (di)electric field,
it charges up the coil with magnetic field energy.
and while the coil magnetic field discharges,
it charges up the (di)electric field of the capacitor.
This cycle continues until resistance has transformed the energy into heat.
Resistance transforms energy into heat? I'm not sure how 'energy' is defined, but resistance/friction controls how fast current flow. Heating or lighting is a by-product of current flowing thru resistance. Electrons do not get consumed. The very simple capacitors shuffling demo proves that here th-cam.com/video/SE-AiC9yiFc/w-d-xo.html
Finally, we see how scientists derive new equations in class.
thank you very much professor, that was an excellent explanation.
Awesome video! Thank you!
That was amazing ❤️❤️❤️❤️
Realy ?
Hats off . Thank you so much sir.
nice one. thank you.
Nice explanation😚
Thank you.
that graph was v helpful
YES!!!!!
I must impressed by indian sir
Sachin sir physics. Chanel
Kya padhate hai
Thanxxxxx sir
How do yo?
27000MHZ something happened ....
Система "равновесная" , какого хрена конденсатор выбран начальной и конечной точкой сжатия пружины ? - если это параллельный резонанс то это глупо , полюса меняются местами , представление не правильное а без него не понять физическую сущность процесса , формулы никогда не дадут понять суть !
electric resonance simply explained:
The electric field energies transform back and forth, changing their polarities while doing so.
While the capacitor discharges its (di)electric field,
it charges up the coil with magnetic field energy.
and while the coil magnetic field discharges,
it charges up the (di)electric field of the capacitor.
This cycle continues until resistance has transformed the energy into heat.