What is the magnetic field? What is its nature? 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. What is the magnetic field? What is its nature? We associate a magnetic field and an electric field to a moving charge. And like the electric field, the magnetic field penetrates through matter. While the electric field exerts a force on a charged particle whether stationary or moving, the magnetic field exerts a force on a moving charged particle and it acts sideways. And the magnetic field is curly patterned. 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 B. Sherwood and R. Chabay, unpublished.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, 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 topics described in the 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
@@patrickstarshooter5221 Yes I am serious. A field of what? What exactly is this force field we call magnetism? What's it made out of. What are electrons protons and neutrons made out of? What exactly is this phenomenon we call electricity? Do you know?
@@ianrkav A field in general is any volume of space that you decide to put a number on. I can say that there's a human field where the value is either 1 or 0 depending on if there is a human in the location you're looking
ghanta technical hai magnetic lines are imaginary, they don ' t repel each other, the reason they don't intersect is the path of the object motion if kept in a magnitic field. the path is traced and then it indicates the magnetix lines.
Wastedddd.... Don't just tell the properties the Google has filled up with it.... Try to give the logical reasons behind it.... Why the field exist, etc
What is the magnetic field? What is its nature? 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.
What is the magnetic field? What is its nature?
We associate a magnetic field and an electric field to a moving charge. And like the electric field, the magnetic field penetrates through matter. While the electric field exerts a force on a charged particle whether stationary or moving, the magnetic field exerts a force on a moving charged particle and it acts sideways.
And the magnetic field is curly patterned.
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, 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 topics described in the 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
Thank u
Keep teaching in English only. It helps all people
💯 correct....
This video is very helpful
i finally know how exactly magneto's powers work, thanks.
I understand very well 👍👍😎
Thanks for your teaching
MASHAALAH
Please make one video on particle in magnetic field
Thank you mam
Nice explanation
Hi. Can you explain what a “Field” is? Thx
Exactly. A field of what? What's the very nature of it?
@@ianrkav are you serious?
@@patrickstarshooter5221 Yes I am serious. A field of what? What exactly is this force field we call magnetism? What's it made out of. What are electrons protons and neutrons made out of? What exactly is this phenomenon we call electricity? Do you know?
@@ianrkav A field in general is any volume of space that you decide to put a number on.
I can say that there's a human field where the value is either 1 or 0 depending on if there is a human in the location you're looking
A field is referred as "Area of influence"
thank you very much
Really helpful
Thx mam
ghanta technical hai
magnetic lines are imaginary,
they don ' t repel each other, the reason they don't intersect is the path of the object motion if kept in a magnitic field. the path is traced and then it indicates the magnetix lines.
thanks
Thx mam wonderful explanation 😊
Microphone can be better all the other stuff such as intro, outro and video quality is ok
Nice
mam u teach well but explain in hindi or punjabi
From seventh day Adventist school
Nice to jaat boss
4:36- we didnt like it
which software do u use??
What vcb full explain
New videos.... Please😫🙏🙏💓
aba o banga li
Main yah padhaane Ka Tarika Nahin Hai yah to Fir 3idiot ka Kahani Ho Gaya
i like it tho is kinda ummm like true
AP Urdu or Hindi me video banae to AP ki videos viral hogi thanks
Make video in Hindi also
thanks madam
o tu chop kar
Smjhne ke liye
Nic video thanks
Hindi me bhi thoda bola kro didi
Really very helpful thnku mam
Mam Hindi me bhejiye
okay
Hi
थँक्स मॅडम
lagta hai aap kise book se dekh ke bol rhi ho explain to kro reluctance kya hota hai
You didn't explain what is reluctant!!!!!!
my qs is this too
jangle dawfa ho
Frands
Mujhe samaj me nahi Aya hindi me bhi padaya Karo
Answer to theek do hindi ma
Strong and weak magnetic field kia hota ha
Thanks mam
How the magnetic force coming explain
Bhai ye force aati kahan se hai?🤣🤣.this is 3 idiot walla work that means just craming
OK I understand
Wastedddd.... Don't just tell the properties the Google has filled up with it.... Try to give the logical reasons behind it.... Why the field exist, etc
ਪੰਜਾਬੀ ਚ ਭੌਂਕ ਲਾ ਸਾਲੀਏ
Show some respect bro..atleast she is teaching you better than your college professors...respect woman ...
@R K sahi keha bro ...
u explain def. magnetic field then y u use ....the area around the magnetic field ??😴😴
You don't knew how to explain
Thanks for wasting my time
Hindhi also talk
Thx mam