Razavi Basic Circuits Lec 17: More RC Circuit Examples

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  • Опубликовано: 30 окт 2024

Комментарии • 10

  • @Cutie_beauty_dujju
    @Cutie_beauty_dujju Год назад +5

    made it tough to blink my eyes. Thats how legends deliver. Hats off sir.

  • @wardhum6611
    @wardhum6611 8 месяцев назад +1

    Thank you very much for this video. I have a much better understanding of the RC relationship after watching this.

  • @VIGNESHBSBEC
    @VIGNESHBSBEC 2 года назад +3

    Razavi Rocks!!

  • @ccccomrade
    @ccccomrade Год назад +1

    how charge is conserved. charge is going through resistor?

    • @YourBuddy901
      @YourBuddy901 Год назад

      Resistor does not accumulate any charge. So charge will be conserved across resistor always. Resistor just acts as a medium for charge flow.

    • @student2engineer
      @student2engineer Год назад

      ​@@YourBuddy901i think the charge going through resistor becomes heat and it's not conserved

    • @YourBuddy901
      @YourBuddy901 Год назад

      @@student2engineer Heat is not a matter like charge. It is a form of energy generated by collision of charges. Hence charge cannot become a heat.

    • @ammarzavahir8928
      @ammarzavahir8928 9 месяцев назад

      @@YourBuddy901 what about e=mc^2 where mass converted to energy, charges have mass so it can be converted to energy yee?

    • @YourBuddy901
      @YourBuddy901 9 месяцев назад

      @@ammarzavahir8928 Energy of the body at "rest" is given by mc^2. I think this equation does not hold for a moving charge.
      This rest mass energy can be converted to any other form like a thermal energy in our case. So we can apply this equation on the resistance which is at rest and releases heat energy. But value of mass converted to energy will be very small because of c^2 in denominator.
      And since the charge coming into the resistor is moving so this equation would not hold for it.

  • @AK47_414
    @AK47_414 11 дней назад

    30:04