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Thank you for your kind comment and appreciation! 😊 Yes, that is true. Electrolytic capacitors have an oxide layer acting as a dielectric to insulate properly in a unidirectional fashion. However, up to certain voltage levels (typically up to 1.5 volts), the reverse voltage does no harm to oxide layer and it can still act as a bidirectional capacitor with a different capacitance value (In our case reverse voltage would die out immediately to these levels). Also, as you know, it is rather simple to demonstrate by using what you have in your hand especially when you need a large capacitance for observable oscillations with a low frequency. But this must also explain the anisotropic waveform on the oscilloscope, very good point to mention thank you!

Thank you for your nice and kind comment and subscription! 😊😊 Wish you a great success in your studies. Also, I am so glad that my videos are helpful in that manner! Hearing that is my biggest prize 🙏

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Thank you so much for your kind comment :)) Yes, you are right (except the circuits energized by a battery in that case the circuit would just be an electromagnet with constant north and south pole and would not be an antenna and radiate. Electricity must fluctuate for radiation to occur.) And your question is very exciting and interesting and yes, it applies to our neural system too but if I am not wrong, sadly, the neurons don't have enough energy to generate EM waves that can even reach to the nearest neuron. The EM waves our brain generates probably are not able to pass through our skulp and not detectable. Typically, EEG (Electroencephalogram) devices are used to read our brain waves via electrodes directly connected to our heads. They read those electrical events occuring in our neural system rather than electromagnetic waves (And believe me building an EEG device is an extremely challenging task). Hope this explanation helps :)