What is Back EMF & what is its significance | DC Motor | TheElectricalGuy

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  • Опубліковано 4 гру 2024

КОМЕНТАРІ • 56

  • @kennedymwila2100
    @kennedymwila2100 Рік тому +11

    I clicked on the video by mistake. But I have really enjoyed the lecture. Well done

    • @GauravJ
      @GauravJ  Рік тому +1

      Glad you liked it 👍🏻

    • @mariastanford5701
      @mariastanford5701 4 місяці тому

      @@GauravJ due to Back EMF magnetic field strength of stator's electromagnet(DC motor) also reduced? Lets say stator required 1 amp to produce B=0.2T, but due to back emf if its only consume 0.5Amps, Does B=? also get reduced?

  • @aliusef2912
    @aliusef2912 Рік тому +9

    best explanation ever existed on DC motor starting current & back emf.

  • @sisir22
    @sisir22 7 місяців тому +1

    your lecture is very helpful to know the working principle of DC motor. thank you sir.

    • @GauravJ
      @GauravJ  7 місяців тому +1

      You are most welcome

  • @ritas20
    @ritas20 9 місяців тому +1

    Great explanation, well done!

    • @GauravJ
      @GauravJ  9 місяців тому

      Glad it was helpful!

  • @boffotape914
    @boffotape914 5 місяців тому

    Very clear and neat explanation .

  • @sisir22
    @sisir22 5 місяців тому

    sir you are sparking the mind what we want to digest. ok so creative idea.

  • @Who_was_That.
    @Who_was_That. Рік тому +1

    Thanks

  • @showmikalves5430
    @showmikalves5430 7 місяців тому

    It was helpful...Thank you

  • @a1kyam
    @a1kyam 8 місяців тому +2

    Thank you very much sir ❤

    • @GauravJ
      @GauravJ  8 місяців тому

      Most welcome

  • @karthik77-5
    @karthik77-5 6 місяців тому +1

    So what about whent it comes to a DC Generator, the back emf reduces the magnetic field like the back emf reduced the effect of supply voltage here?

    • @sanihabegum1086
      @sanihabegum1086 3 місяці тому

      I think that, as the electrical energy is the output of a generator, there is no source which the armature field is opposing. The emf produced from the armature flows through the commutator and is received as the output through brushes. Furthermore, the field produced by the armature is opposing the source current in a motor, whereas in a generator, there is no source to oppose

    • @karthik77-5
      @karthik77-5 3 місяці тому

      @@sanihabegum1086 ohh thankyou for clarification..😃

  • @davem5392
    @davem5392 Рік тому

    I think loosing the field while motor is running has big consequences related to this.
    Also if no field motor will not rotate I think it would be useful for you to explain this

  • @trader573
    @trader573 Рік тому

    Interesting video indeed..🔥💯

  • @uniquebeats5378
    @uniquebeats5378 Рік тому

    More videos on dc Machines please ------ load characteristics

    • @GauravJ
      @GauravJ  Рік тому

      Hello. I have a detailed course on DC machines.. you can check it out. Link is in the description

  • @vipinthampy4669
    @vipinthampy4669 Рік тому

    Please do vedio on solar cell

  • @ramswaroopkhokhar7910
    @ramswaroopkhokhar7910 2 місяці тому

    Is back emf existing in AC machine ??

  • @Ustad-p3z
    @Ustad-p3z 3 місяці тому

    what will happen if we connect dc motor to dc source via diaodes

  • @danblankenship5744
    @danblankenship5744 3 місяці тому

    I agree, if your motor employs a magnet and a coil of wire your motor will induce a back EMF. Unfortunately, this back EMF will significantly inhibit the output power from your motor.
    If you have a 12Volt DC motor, you could expect the motor's output power is being created from about 3 Volts while the back EMF is consuming the other 9 volts.
    So your opening statement, "If the back EMF is not there it could damage the motor ..." is a little misleading. Without back EMF the same motor would be rated as a 3 volt motor and it would be just fine. If you went ahead and applied the old 12 volts, then your statement is true.
    With a geometry change a DC motor can be created without these powerful magnets that induce this counter productive EMF. From what I've seen, the efficiency of such creations leave the existing motors in the dust.
    The closest thing I have found are generally classified solenoid engines.

  • @SumaiyaFerdous-p2j
    @SumaiyaFerdous-p2j Місяць тому

    Then why don't we supply source of less voltage? Considering the capability of the motor? Plz answer if anyone knows.. Thank you

    • @TanjilKabir
      @TanjilKabir Місяць тому

      Every motor is designed to operate at a specific rated voltage. While reducing voltage might seem like a way to prevent high back EMF or protect the motor, it generally results in poor performance, reduced efficiency, and potential damage due to higher current draw. Why? Because lower voltage resulting less speed and in this condition B-EMF is negligible , so at the starting of the motor, it will draw a large amount of current .Therefore, motors are typically supplied with their rated voltage to ensure optimal operation.

    • @TcTDezaster
      @TcTDezaster Місяць тому

      Back EMF is a function of the angular velocity or rotational speed. Reducing voltage will decrease the speed of rotation and therefore . But yeah the motor is now slower

  • @engrnaveed96
    @engrnaveed96 Рік тому +1

    Best

  • @mahershhab3824
    @mahershhab3824 Рік тому

    احتاج مساعده بمقابل مادي لو سمحت

  • @honestman276
    @honestman276 Рік тому

    Despite that comment, I thank you much. Thanks from Bangladesh.

  • @davidopperman6117
    @davidopperman6117 11 місяців тому

    Initial current won't be 50 amps because the coil has reactance

  • @JONASDJORBUAHTETTEY
    @JONASDJORBUAHTETTEY Рік тому

    If back emf is for DC motor what do we have in AC motor

  • @DaniyalAshraf-ce4rr
    @DaniyalAshraf-ce4rr 2 місяці тому

    You have explained the eddy currents not the back emf

  • @abdulqayyum4715
    @abdulqayyum4715 Рік тому

    Sir. What is fee of course of electrical for 6 months in Pakistani rupees?

    • @GauravJ
      @GauravJ  Рік тому

      Hi. You can check it on courses.theelectricalguy.in

  • @sowmijadeja
    @sowmijadeja Рік тому

    what happens if Back EMF = Supply Voltage ?

    • @AsifMPED
      @AsifMPED Рік тому

      Armature current will become zero, and therefore electromagnetic torque will also become zero.

  • @Sam-yq3br
    @Sam-yq3br 3 місяці тому

    Very good lesson though the accent is hard to be understood by Chinese...

  • @CaryS2
    @CaryS2 2 місяці тому

    To say that is why back emf is of paramount importance is insufficient. How about saying WHY back emf is important to have or not have specifically.

  • @nkotoki
    @nkotoki Рік тому

    what you are talking about is electricity only you can understand.

  • @mahershhab3824
    @mahershhab3824 Рік тому

    I need some paid help, please

  • @mr.elliotanderson
    @mr.elliotanderson 8 місяців тому

    whatever you told could be told in 5 minutes itself ...

  • @mr.elliotanderson
    @mr.elliotanderson 8 місяців тому +1

    whatever you told could be told in 5 minutes .....why you taken so long

  • @nicoledarling3538
    @nicoledarling3538 Рік тому

    Very low on visual aids. You don't explain how to calculate back EMF on any system nor do you show nor the relation to speed and back EMF... Videos should be used to make information visual, not just to lecture.

    • @Traderhood
      @Traderhood 7 днів тому

      Why don’t you make one yourself then.

  • @bernardocisneros4402
    @bernardocisneros4402 Рік тому +1

    Very good video. Thank you! I have a question. I'm just getting started in electronics so I'm having trouble understanding the relationship between back EMF and inductive reactance. I assume back EMF is not the same as inductive reactance, but both work together in an AC circuit to oppose the flow and change in current. My question is: Are back EMF and inductive reactance the same thing or does back EMF oppose the change in current while inductive reactance opposes the flow of current?

    • @GauravJ
      @GauravJ  Рік тому

      No. Back emf and inductive reactance are not the same. Back emf does not oppose the current.

    • @bernardocisneros4402
      @bernardocisneros4402 Рік тому

      @@GauravJ Thanks for the quick reply. I think I understand now. Back EMF opposes the supply voltage and that's why you subtract back EMF from supply voltage when calculating current with Ohm's law, but by increasing back EMF or inductive reactance you decrease current. Is this correct? If not, please recommend one or more of your videos that might clear this up for me. Thanks again!

    • @GauravJ
      @GauravJ  Рік тому

      Yes, back emf opposes the supply voltage. That is correct. Now, inductive reactance will not come into picture in case of a dc motor. Inductive reactance is only applicable for AC (Alternating current) as it only opposes the change in current and not constant current (DC,). To have more clarity on it, you can check out my playlist on "AC circuit"

    • @bernardocisneros4402
      @bernardocisneros4402 Рік тому +1

      @@GauravJ Thanks for the explanation. I understand it now. Formula for inductive reactance is 2pifL and frequency in DC cicuit is zero so if you plug in zero for frequency in the inductive reactance formula the product is zero.

    • @yarasinikitha8972
      @yarasinikitha8972 7 місяців тому

      Loved the vd❤

  • @honestman276
    @honestman276 Рік тому

    Your own statement about the definition and functions of different terms confuse us. Please don't misunderstand me. Thanks from Bangladesh.

  • @rmanobalaji6475
    @rmanobalaji6475 Рік тому +1

    Thanks