For dc supply, the inductor will behave like short circuit because the frequency of dc is zero and we know that XL = 2×pi×f×L . Now, for dc frequency f = 0 Hence, XL = 2×pi×0×L= 0.
Inductive reactance The inductive reactance is expressed in ohms, and is useful to determine steady-state current values to sinusoidal voltage inputs. It is to be noted that though the value of the reactance is expressed in ohms, it was not obtained by computing a resistance, as of resistors. The current is on account of the resultant of the applied field and an opposing coulomb electric field, which is due to polarization by the non-coulomb curly patterned electric field associated with the changing magnetic field, and the current obtained thereof by applying the relation J = σE(NET) where E(NET) is the resultant field of the applied field and the coulomb electric field and where σ is the conductivity of the wire. For a comprehensive description of the mechanism of current lagging the voltage across an inductor at different frequencies see the book references below. Electrostatics and circuits belong to one science and not two, that of electricity and magnetism. To know how they are unified visit this link matterandinteractions.org/articles-talks/ and view the article 'A unified treatment of electrostatics and circuits. B. Sherwood and R. Chabay, unpublished. (1999)' pdf. For a live demonstration of surface charge and its effects in circuits visit th-cam.com/video/U7RLg-691eQ/w-d-xo.html Electrostatics and circuits belong to one science and not two, that of electricity and magnetism. To know how they are unified visit this link matterandinteractions.org/articles-talks/ and view the article 'A unified treatment of electrostatics and circuits. B. Sherwood and R. Chabay, unpublished. (1999)' pdf. For a live demonstration of surface charge and its effects in circuits visit th-cam.com/video/U7RLg-691eQ/w-d-xo.html For a detailed discussion of surface charge, coulomb's law, electric fields, fields of dipoles and other charge configurations, parallel plates, capacitance, currents, conservation of charge, conservation of current, superposition of fields, superposition of potential, simple dc circuit, magnetic fields, magnetic fields of a current element, straight wire, current loop, solenoids, biot-savart law, voltage, voltage source, difference between e.m.f. and potential difference, ideal voltage sources, resistors, how current branches in a parallel circuit, capacitors, inductors, faraday's law, inductance, ac circuits, transmission lines, motors, generators, p-n junction diodes, electromagnetic waves, antennas and radiation, new electrodynamic theories on the nature of the electric field, see "Electric and Magnetic Interactions" by Chabay and Sherwood www.matterandinteractions.org or Fundamentals of electric theory and circuits by Sridhar Chitta www.wileyindia.com/fundamentals-of-electric-theory-and-circuits.html There is a "look inside" feature in the amazon.com webpage of the book "Fundamentals of electric theory and circuits" by Sridhar Chitta with a few pages of Chapter 1 which may be viewed and also which you may swipe left or press < icon to view the foreword, preface and Table of Contents. The contents of the above book by Sridhar Chitta, make a distinct unified approach to electrostatics and a few advanced circuits like coupling signals to amplifiers, lending precision and clarity to the topics which is not found in most text books. The book comes alongwith a CD with animated power point presentations for all chapters and voltage regulator, RC phase shift oscillator, transformer-coupled audio amplifier and differential amplifier included additionally. For a lecture by Prof Ruth Chabay on surface charge in a simple dc circuit visit th-cam.com/video/-7W294N_Hkk/w-d-xo.html
sir aap ka lecture bahuth Acha laga ab patha chala muje inductor kya hi aur iska function kya hi sir pls aise videos bane thaki hum easily understand all the concept tq very much sir
बहुत अच्छा समझाया गया है । धन्यवाद
Sir animations bahut help karti hai samjhne me
Thanks a lot.
Perfect nice bhai
अप्रतिम video easy to understand👌👌👌💐💐
Sandar jabarjust jindabad jhakash
Super sir
Bahut Badhia
अपना शिक्षा का अभियान बहुत खूबसूरत और बहुत उम्दा है
shridhar vyas sahi comment
For dc supply, the inductor will behave like short circuit because the frequency of dc is zero and we know that XL = 2×pi×f×L .
Now, for dc frequency f = 0
Hence, XL = 2×pi×0×L= 0.
Nice sir
Very nice.
Dhanyavad ji
Hindi me video bana diye .
🙂🙂🙂🙂🙂
Bahut khushi hui .
Thank you sir... good knowledge
i got the concept well cleared :) by the way this video was not for beginnersbut for those in 12th or above
Very good
Thanks Aman ji
Achha laga sir hindi video
Bhaiya you are great
Your teaching stetegy is so amazing
Best expelnation 👍👍
Bahut badiya
Nice yr superb..👌👌
बहुत बढ़िया समझाए सर
Video's banate rahiyega sikne waalaonke liye bahot accha hai God bless you....
smoothly understood video
Samjaneme Grand master ho aap👍👍👌👌👌♥️♥️♥️
Matlab kya kahe bss....aag lga di sir aapne....
बढिया कोशिश
लगे रहिये।
Shabash
Nice video sir
New subscriber from. odisha
Very nice 👍❤️
It is also used 4 engineering student tq sir
Sir Aapka video bahut asani se samajh Raha hai
Thanks Teacher ji
Great Job. Thank you
Welcome. Hope you are also liking our latest videos
sir apke video bhaut acche lage hi or video banaye appka bhaut bhaut dhanbad
welcome Dheeru ji
Ap hamare English channel ko bhi jarur visit kariye
th-cam.com/video/AhxMrUo806Y/w-d-xo.html
Very nice sir
Very good vibes your
Make a video on of what rating a DTR is installed in a locality depending on load.
sir ji good job
Nice good work
Very nice
Inductive reactance
The inductive reactance is expressed in ohms, and is useful to determine steady-state current values to sinusoidal voltage inputs. It is to be noted that though the value of the reactance is expressed in ohms, it was not obtained by computing a resistance, as of resistors.
The current is on account of the resultant of the applied field and an opposing coulomb electric field, which is due to polarization by the non-coulomb curly patterned electric field associated with the changing magnetic field, and the current obtained thereof by applying the relation J = σE(NET) where E(NET) is the resultant field of the applied field and the coulomb electric field and where σ is the conductivity of the wire.
For a comprehensive description of the mechanism of current lagging the voltage across an inductor at different frequencies see the book references below.
Electrostatics and circuits belong to one science and not two, that of electricity and magnetism. To know how they are unified visit this link
matterandinteractions.org/articles-talks/ and view the article 'A unified treatment of electrostatics and circuits. B. Sherwood and R. Chabay, unpublished. (1999)'
pdf.
For a live demonstration of surface charge and its effects in circuits visit
th-cam.com/video/U7RLg-691eQ/w-d-xo.html
Electrostatics and circuits belong to one science and not two, that of electricity and magnetism. To know how they are unified visit this link
matterandinteractions.org/articles-talks/ and view the article 'A unified treatment of electrostatics and circuits. B. Sherwood and R. Chabay, unpublished. (1999)'
pdf.
For a live demonstration of surface charge and its effects in circuits visit
th-cam.com/video/U7RLg-691eQ/w-d-xo.html
For a detailed discussion of surface charge, coulomb's law, electric fields, fields of dipoles and other charge configurations, parallel plates, capacitance, currents, conservation of charge, conservation of current, superposition of fields, superposition of potential, simple dc circuit, magnetic fields, magnetic fields of a current element, straight wire, current loop, solenoids, biot-savart law, voltage, voltage source, difference between e.m.f. and potential difference, ideal voltage sources, resistors, how current branches in a parallel circuit, capacitors, inductors, faraday's law, inductance, ac circuits, transmission lines, motors, generators, p-n junction diodes, electromagnetic waves, antennas and radiation, new electrodynamic theories on the nature of the electric field, see "Electric and Magnetic Interactions" by Chabay and Sherwood
www.matterandinteractions.org
or
Fundamentals of electric theory and circuits by Sridhar Chitta
www.wileyindia.com/fundamentals-of-electric-theory-and-circuits.html
There is a "look inside" feature in the amazon.com webpage of the book "Fundamentals of electric theory and circuits" by Sridhar Chitta with a few pages of Chapter 1 which may be viewed and also which you may swipe left or press < icon to view the foreword, preface and Table of Contents.
The contents of the above book by Sridhar Chitta, make a distinct unified approach to electrostatics and a few advanced circuits like coupling signals to amplifiers, lending precision and clarity to the topics which is not found in most text books.
The book comes alongwith a CD with animated power point presentations for all chapters and voltage regulator, RC phase shift oscillator, transformer-coupled audio amplifier and differential amplifier included additionally.
For a lecture by Prof Ruth Chabay on surface charge in a simple dc circuit visit
th-cam.com/video/-7W294N_Hkk/w-d-xo.html
Language is very easy
Nice
Excellent
Good video ❤
Bahut achha laga
খুব ভালো লাগছে স্যার । বোঝানোর পদ্বতি খুব ভালো লাগলো। আমার অনেক কাজে লাগবে
ধন্যবাদ
Great explanation sir
Thank you this is useful for me
apke video bhaut acche lage
Fantabulous sir
nice video thank you sir
Aapka explanation bahut hi achcha hai
बहुत सुंदर है ❤️👍❤️❤️
Nice way for explanation
Bahut bahut achcha hai bhai
bina baat ko dohraye. fata fat vid. banaye
बहुत अच्छे
Tnxx for knowledge
Nice attempt 👍
Guru hai aap
like video sir...
Great job sir
App ke samjhane ka tarika best h
Sir, In 1:22, how can there be current only in presence of magnetic field. Shouldn't there be change in magnetic flux to produce electricity.
Apki video hame Bahot Pasand aa Rhi hai app Aor Bahot sari video banaye sir
Ji ek month ke baad me full time work karuga is channel pr. tab jaldi jaldi video laauga. ab bus connected rahiye
Ham apko full sapport kar rhe hai
@@JitendraSingh-ej1ot Bhout bhout Dhanyawaad
ACHHA PRAYAS!
Good explanation
Aapke samjhane ka tarika bahut achha laga Sir, thanyawad. isi tarah se hindi mein video banate rahen,
Wlecome Sanjay ji, ye to old video hai, aasha karte hai aap latest videos bhi dekh rahe hoge :)
Very good sir etna to hamari ITI me bhi nehi bataya kisi ne
Very good brother
Hindi me video banaye sir . very nice and very informetve video OK by.
Dhanyvaad guruji
thank-you sir ji
Thanks to hindi
nice information technical video apko mil skte hai aao
Excellent lecture Sir
Thanks
nic
Thank you sir aap bahut acche se samjhate hai🙏🙏🙏
Gajjab
Sir nice vedio
Very good explain
Super video.
Nys video
Good vedio for electrons student OK
Good
Emf produce nhi hone se kya fayda hota hai inductor me
Làjawab video
sir aap ka lecture bahuth Acha laga ab patha chala muje inductor kya hi aur iska function kya hi
sir pls aise videos bane thaki hum easily understand all the concept tq very much sir
Welcome Sri kant ji
ham bilkul ese videos late rahege
Best. H. Boss
Nice video
gjb
very important video for me thanks
Welcome :)
or bhi video jaroo dekhiye, capacitor pr bhi availabel hai
Dear Sourabh, you have done very impressive work,
which software you are using for inductor simulation? and recording software for video
It's Secret
Great sir
Welcome Pramesh Ji
aap harmre or bhi videos jaroor dekhe, pasand aye to like, share karein
Good sir...Next .
. Capacitor ke uper vidio
Thanks Sir
sir i can make low frequency circuits from this
very helpful