Ampere's Circuit Law

[Virtual Presenter] Good morning everyone, I'm pleased to welcome you to our discussion about Ampere's Circuit Law. We will be exploring the equations of this law and the interactions of H and B in detail. Let's get started!.

[Audio] Ampere's Circuit Law states that the sum of the magnetic field around a closed loop is proportional to the total current running through the loop. Regardless of the number of turns in the loop, the line integral of the magnetic field is equal to the total current..

[Audio] A key concept in electromagnetism is Ampere's circuit law, which states that the integral of the tangential component of H around a closed path in a given area is equal to the net current enclosed by the path. This law is essential for comprehending the behavior of electric and magnetic fields..

[Audio] The fourth slide of our presentation will focus on Ampere's Circuit Law. B and H have a linear relationship in free space defined as B = μ*H, with μ representing the permeability of free space, which is 1.25663706 x 10-6 meters kilograms per second squared per ampere squared. H is the strength of the magnetic field expressed as ampere-turns per meter, and when you multiply its magnitude by the permeability of free space, you will get B, the flux density in teslas..

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B due to Infinite line current from Ampere's circuit law..

[Audio] ""Ampere's Circuit Law" states that a magnetic field is created by a current carrying wire, the formula for this being B times two pi times R, which is equal to the permeability of free space multiplied by the current in the wire, all divided by two pi times the distance from the wire. This implies that the magnetic field produced is directly proportional to the current in the wire and inversely proportional to the distance from the wire, which means that the farther away from the wire, the weaker the magnetic field..

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