Question

In: Electrical Engineering

C1. A single wire 4m above ground transports a current of 100 A to a remote...

C1. A single wire 4m above ground transports a current of 100 A to a remote load. it is horizontally seperated from the current carrying the return current by 0.5 m.

a) sketch the system

b) Starting with Amperes circuital law, derive an expression for the field at any point p from one wire. State your assumptions.

c) using the formula derived in question C 1b calculate the field 2m below the transmission line and at ground level, equidistant from both wires (ignoring any effects of the ground)

Expert Solution

Ampere's Circuital Law states the relationship between the current and the magnetic field created by it. This law says, the integral of magnetic field density (B) along an imaginary closed path is equal to the product of current enclosed by the path and permeability of the medium.

It alternatively says, the integral of magnetic field intensity (H) along an imaginary closed path is equal to the current enclosed by the path.

Let us take an electrical conductor, carrying a current of I ampere, downward as shown in the figure below.

Let us take an imaginary loop around the conductor. We also call this loop as amperian loop.

Let us also imagine the radius of the loop is r and the flux density created at any point on the loop due to current through the conductor is B.

Let us consider an infinitesimal length dl of the amperian loop at the same point.

At each point on the amperian loop, the value of B is constant since the perpendicular distance of that point from the axis of conductor is fixed, but the direction will be along the tangent on the loop at that point.

The close integral of the magnetic field density B along the amperian loop, will be

Now, according to Ampere's Circuital Law

Therefore,

.

Manojponduru answered 1 year ago

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