electric field is the paths from where electron is ejected to where electron try to return to establish equilibrium in surface of conductor. electron physical structure, specially the the fluffy flux protruding on it's surface make them keep their distances from one another creating lines as illustrated.
What is the electric field? What is its nature? The classical electric and magnetic fields were first depicted as lines of force by Michael Faraday and later changed to tubes of force by Maxwell in the region surrounding stationary and moving charges. The abstract Electric and magnetic fields are suitably depicted using vector arrows at points in space. In order to precisely explain the physics of electricity and magnetism, it is useful to attribute a few properties to fields, which are abstract in the sense that they are not visible nor tangible but they produce observable effects in their interactions with matter and its constituent atoms and the charges which constitute them; one example is that they penetrate through matter. There are several more effects and properties of charges and fields which can explain their behavior in circuits. 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 B. Sherwood and R. Chabay, unpublished.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 ua-cam.com/video/U7RLg-691eQ/v-deo.html For a detailed discussion of surface charge, coulomb's law, electric fields, currents, conservation of charge, conservation of current, superposition of fields, superposition of potential, simple dc circuit, magnetic fields, 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, ac circuits, transmission lines, p-n junction diodes, electromagnetic waves, antennas and radiation, 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 oscillators and differential amplifiers included additionally. For a lecture by Prof Ruth Chabay on surface charge in a simple dc circuit visit ua-cam.com/video/-7W294N_Hkk/v-deo.html
@@sridharchitta7321 I just want to know electric field..not its behaviour or properties...u just wrote that it's like line or tube...wtf why dont u all get..everyone is just sharing the bookish knowledge...dont u all feel what exactly is it?
@@karimez6854 If it were known, then it wouldnt be necessary to listen to lengthy lectures on the subject. It is still the subject of ongoing research by physicists. And, I have written about this in the last paragraph of Appendix F in my book. I cannot share all this in this short space.
@@karimez6854 I will be happy to explain anything on the topics in my book. I have had the kind of feeling you have and let me say, I could come out of it after I read Ruth and Chabay's book, and emerged with enough confidence to write a book with animations for all chapters. I do not know your present level of understanding so I cannot give any advice or recommendation. But, I will be happy to do so.
Mam, but I have a doubt when we think about the field produced by a negative charge on the test charge the direction of the force is reverses, but electric field still remains as positive, why ?
a charged particle of mass m charge q realesed from rest in an electrical field of intensity e the kinetic energy of particle after time t write answer in reply if dont know then like
@@mahi1614 it's to complicated seeing this video mind will become mess type see this concept is basic concept in this video you have show with better diagrams making points and all basically I'm in electrical engineer I felt it's very complicated that's all . information is good but too complicated
Sab chij thik hai but samjhane ka mtlab apko pta hai...? Uska mtalb hai students kisi v topic ko apne simple language me answer de sake. Or ye jo aap English me samjha rahe hai apko kya lagta hai ki sab samjh gya, for your kind information ye science hai English nhi to English ka pura lecture khatam kar diye isse apko simple language me samjhana hoga
Wow keep it up. You explain this better than my professor and he explained for about half an hour u only did for like 30 Mins. Keep it up
What is the difference between 30 minutes and half an hour ??
I don think 🤔 there's any explanation
Tf dude half an hour is 30 mins bruh?
@@BMLBG12345678910ABC Honestly even I don't understand what I wrote. My past is a dark time.
@@yelloyt7095 😂😂😂😂😆
The field actually in which the charge particles "attracting and reupulsing" each other is considered as electric field.
Mam u explain in very easy language , that's I like.
Thank u👍
ua-cam.com/video/jMGGREAG-xk/v-deo.html
Aslo watch
Easily to understand ☺thanks maam
electric field is the paths from where electron is ejected to where electron try to return to establish equilibrium in surface of conductor. electron physical structure, specially the the fluffy flux protruding on it's surface make them keep their distances from one another creating lines as illustrated.
Very good explanation
So good.. Thank you ma'am.
jese apne prhaya aese hm khud pr len ge
koi conceptual lecture diya karen
Thank you teacher 😊😘😇
Superb teaching mam really 😀😀👍👍
mam plz video made on capacitor topic in hindi
i love ur way of teaching mam u 2 such an amazing teacher that i have ever seen in my life...🤗🤗
Thanks mam for clearing the dout
Thanks for explanation it's 2 good
And I understand this video easily..
Awesome ! Lecture
Start music name plz
Great video
Mam concept of producing electric field is not so clear
Very important but easily explained.
#DefinationsForStudents
Maam fabulous teaching❤️
Very helpful and Awesome explanation.
From which side
@@mafzal4934 ?
Mam this video is very helpful for me , thank you..
video made on capacitor topic
Thanks madam for the vedio👍.
Must watch and subscribe
ua-cam.com/video/jMGGREAG-xk/v-deo.html
@@devranisirphysics2140 7
Nce lecture
good mam🌹🌹🌹🌹🌹🌹🌹🌹🌷🌷🌷🌸🌸🌸🌸🌸🌸🌸🌸🌸💐💐💐🐾🐾🍁🍁🌺🌺🌻🌻🌻🍀🍀🌿🌼🌼🌼🌼🌼🌝🌞🌞🌼🌼🌱🌱🍁🍁🍃🍃
Thank you very much.
U just explained the features of electric field...what exactly is electric field?
What is the electric field? What is its nature?
The classical electric and magnetic fields were first depicted as lines of force by Michael Faraday and later changed to tubes of force by Maxwell in the region surrounding stationary and moving charges.
The abstract Electric and magnetic fields are suitably depicted using vector arrows at points in space.
In order to precisely explain the physics of electricity and magnetism, it is useful to attribute a few properties to fields, which are abstract in the sense that they are not visible nor tangible but they produce observable effects in their interactions with matter and its constituent atoms and the charges which constitute them; one example is that they penetrate through matter.
There are several more effects and properties of charges and fields which can explain their behavior in circuits.
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
ua-cam.com/video/U7RLg-691eQ/v-deo.html
For a detailed discussion of surface charge, coulomb's law, electric fields, currents, conservation of charge, conservation of current, superposition of fields, superposition of potential, simple dc circuit, magnetic fields, 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, ac circuits, transmission lines, p-n junction diodes, electromagnetic waves, antennas and radiation, 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 oscillators and differential amplifiers included additionally.
For a lecture by Prof Ruth Chabay on surface charge in a simple dc circuit visit
ua-cam.com/video/-7W294N_Hkk/v-deo.html
@@sridharchitta7321 I just want to know electric field..not its behaviour or properties...u just wrote that it's like line or tube...wtf why dont u all get..everyone is just sharing the bookish knowledge...dont u all feel what exactly is it?
@@karimez6854 If it were known, then it wouldnt be necessary to listen to lengthy lectures on the subject. It is still the subject of ongoing research by physicists. And, I have written about this in the last paragraph of Appendix F in my book. I cannot share all this in this short space.
@@sridharchitta7321 Thank you. You helped me as much as you could
@@karimez6854 I will be happy to explain anything on the topics in my book. I have had the kind of feeling you have and let me say, I could come out of it after I read Ruth and Chabay's book, and emerged with enough confidence to write a book with animations for all chapters.
I do not know your present level of understanding so I cannot give any advice or recommendation. But, I will be happy to do so.
👌🏻good
From which side
Cool class
Nice
Mam, but I have a doubt when we think about the field produced by a negative charge on the test charge the direction of the force is reverses, but electric field still remains as positive, why ?
Too good easy to understand
Superrr mam
Excellent
Speed of electron to generate 1 ampere current
Mam aur vedio upload kariye
Must watch
ua-cam.com/video/jMGGREAG-xk/v-deo.html
Book se reading karna hamko bhi aata hai
Good
One video on hindi
Must watch
ua-cam.com/video/jMGGREAG-xk/v-deo.html
Subscribe please
Super
too good
Concept is not clear ma'am
Mam Your voice is so cute 😍😍😍
Hindi m explain kre
👍👍👍
Thanks❤️🥰😘😍
Love u😘
My mother name is also Darshna
a charged particle of mass m charge q realesed from rest in an electrical field of intensity e the kinetic energy of particle after time t write answer in reply if dont know then like
N/c - v/ m. Why
I’m new here
Although your video is not so bad, but you need to improve a lot!
Must watch
ua-cam.com/video/jMGGREAG-xk/v-deo.html
Subscribe please
Physics padhane aai hain aap pehle thoda angrezi bolna seekh lijiye.
if u don't know the concept ....don't do it
@@mahi1614 it's to complicated seeing this video mind will become mess type see this concept is basic concept in this video you have show with better diagrams making points and all basically I'm in electrical engineer I felt it's very complicated that's all . information is good but too complicated
Dai yarruda evaan
Wrong definition. Region can't be Electric field. It's a property of charge.
well an electric field is a region is space in where a charged object will experience a force
@@neo0566 Then how you will find the magnitude and direction of "that space".
@@neo0566 Electric field is something that is spread over in the space around a charge. It is a group of vectors.
@@THEPHYSICSTEACHER electric force
Sab chij thik hai but samjhane ka mtlab apko pta hai...? Uska mtalb hai students kisi v topic ko apne simple language me answer de sake. Or ye jo aap English me samjha rahe hai apko kya lagta hai ki sab samjh gya, for your kind information ye science hai English nhi to English ka pura lecture khatam kar diye isse apko simple language me samjhana hoga
Nice medam if I good position in future I never forget u mam .That's due to u
Anil Pilli
Hi
Hindi use kro jo sbko smaj aya nalik
Hy Mam
Bhut jada English h
Hindi nahi aata hai kay
English b smjh nh ati kia itni bari class me aw kr 😂
teach not good but u don't be disappear. ok
Pls urdu speak