Ampere's Circuit Law Explained: Magnetic Field Intensity Fundamentals

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Ampere's Circuit Law is covered by the following outlines:

0. Ampere circuit law
1. Ampere circuit law for magnetic field intensity
2. Basics of Ampere circuit law for magnetic field intensity
3. Direction of magnetic field intensity as per Ampere circuit law
4. Case study of Ampere circuit law for magnetic field intensity
5. Magnetic field intensity for straight long wire

Chapter-wise detailed Syllabus of the Electromagnetics Theory Course is as follows:

Basics of Vector, Parameters of vector, Examples of Vector, Coordinate Systems, Magnitude and direction of vector, Dot and Cross multiplication of Vector, Resultant of vector, Law of parallelogram, Law of polygon, Cartesian Coordinate System, Cylindrical Coordinate System, Spherical Coordinate System, Conversion of Coordinate System.

Coulomb's Law, Electric Field, Electric Flux, Gauss's Law for Electric field, Electric Dipole, Electric Potential, Boundary Conditions of Electric field, Capacitor and Capacitance.

Biot Savart Law, Ampere Circuit Law, Maxwells Equations, Magnetic Field, Gauss's Law for Magnetic field, Examples of Magnetic field, Vector Magnetic potential, Faraday's Law, Boundary conditions of Magnetic field, Induction and Inductance.

EM wave propagation, Plane EM wave in medium, Skin Effects, Intrinsic Impedance, Loss tangent of medium, Pointing Theorem, Examples on EM wave propagation.

Basics of Transmission Line, Parameters of Transmission Line, Types of Transmission Line, Examples of Transmission Line, Impedance matching of Transmission Line, Losses in Transmission Line, Transmission Line Parameters {Propagation constant, Phase constant, Attenuation constant, Characteristics Impedance, Reflection Coefficient, Transmission Coefficient, VSWR, Input Impedance, Line Impedance}.

Basics of Smith Chart, Mathematics of Smith Chart, Examples of Smith Chart, Examples of smith chart using following parameters: VSWR, Reflection Coefficient, Load Impedance, Input Impedance, Line Impedance, Vmax and Vmin location, Admittance, Parallel stub Impedance matching, Series stub Impedance matching.

Engineering Funda channel is all about Engineering and Technology. Here this video is a part of Electromagnetic Theory.

#AmperesCircuitLaw #MagneticField #ElectromagneticTheory @EngineeringFunda

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EngineeringFunda

Sir from Second year Of engineering, iam seeing ur video that's very helpful in exam. Ur video really helpful to understand complex concepts in easy way. Thank u sir

shivtejkate

Super sir no doubt in that, plz continue this work, you are helping many students those who ( like me😂) are unable to understand in the class

kingpradyumna

you are making really very good videos sir ...thank you so much sir

chinni

sir how to calculate the direction? U said u'll solve examples for this but I can't see that in the playlist. It would be great if u can add a few examples for each topic.

nehadwivedi

Great explanation sir!!! Especially the last case of ampere's circuital law

TusharKumar-iunt

Sir in case 1. Outside the wire u have used ampere's law without closed loop condition

eeunnayandaschowdhury

Very good explanation sir . Very easy to understand sir.

Harshcd

Thank you very much Sir. Very good explanation.

chanakafernando

Sir will you explain how it will be 2πr

rebellishivani

Please be sure you have captions on all your videos, even your older ones, and links in the descriptions for reference materials. Your diagrams and equations are clear enough to follow without sound or captions, but you sometimes change symbols and notation. Reprocessing your older videos to be consistent might seem a lot of work, but you have many subscribers and about 5 Billion people using the Internet. You ought to put your tools online so that the equations, in open symbolic mathematics form, can be tested traced and verified by computer. Forcing humans to memorize things that ultimately will need a computer to calculate is a waste of human abilities. You can let the computer do the symbolic math, the calculations and visualizations so 10s of Millions can share in expanding and refining tools for electricity magnetism electromagnetism and gravitational engineering. Richard Collins, The Internet Foundation

RichardKCollins

Show that the Ampere's law inconsistent in time varying field. In view of this establish the modified Ampere's law.

ofwwoqn

Sir can you make video for the applications of time varying fields

sonalgedam

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