Ohm’s law in point from field theory can be expressed as

Electromagnetic Field Theory
Ohm’s law in point from field theory can be expressed as

R = ρ × ( l / A).

J = σE.

V = IR.

J = E / σ.

R = ρ × ( l / A).

J = σE.

V = IR.

J = E / σ.

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Electromagnetic Field Theory
Magnetic flux density emerging out of a closed surface is

depends on magnetic movements outside the closed surface

depends on magnetic movements inside the closed surface.

infinite.

zero.

depends on magnetic movements outside the closed surface

depends on magnetic movements inside the closed surface.

infinite.

zero.

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Electromagnetic Field Theory
A vector field A = p In is given in Cartesian coordinates. In cylindrical coordinates it will be represented as

A = sinφ Ir.

A = cosφ Ir - sinφ Ir.

A = cosφ Ir.

A = cosφ Ir + sinφ Iφ.

A = sinφ Ir.

A = cosφ Ir - sinφ Ir.

A = cosφ Ir.

A = cosφ Ir + sinφ Iφ.

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Electromagnetic Field Theory
Which of the following statement is correct for divergence of electric and magnetic flux densities?

It is zero for the magnetic flux density.

It is zero for the electric flux density.

Both are zero.

These are zero for static densities but non zero for time varying densities.

It is zero for the magnetic flux density.

It is zero for the electric flux density.

Both are zero.

These are zero for static densities but non zero for time varying densities.

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Electromagnetic Field Theory
If the static magnetic flux density is B, then

Curl of B = J.

Curl of B = 0.

Divergence of B = 0.

Divergence of B = J.

Curl of B = J.

Curl of B = 0.

Divergence of B = 0.

Divergence of B = J.

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Electromagnetic Field Theory
RF inductor are characterized by

high current rating and high resistance.

low current rating and high resistance.

high current rating and low resistance.

low current rating and low resistance.

high current rating and high resistance.

low current rating and high resistance.

high current rating and low resistance.

low current rating and low resistance.

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Electromagnetic Field Theory

Electromagnetic Field Theory Ohm’s law in point from field theory can be expressed as

Electromagnetic Field Theory Magnetic flux density emerging out of a closed surface is

Electromagnetic Field Theory A vector field A = p In is given in Cartesian coordinates. In cylindrical coordinates it will be represented as

Electromagnetic Field Theory Which of the following statement is correct for divergence of electric and magnetic flux densities?

Electromagnetic Field Theory If the static magnetic flux density is B, then

Electromagnetic Field Theory RF inductor are characterized by

Electromagnetic Field Theory
Ohm’s law in point from field theory can be expressed as

Electromagnetic Field Theory
Magnetic flux density emerging out of a closed surface is

Electromagnetic Field Theory
A vector field A = p In is given in Cartesian coordinates. In cylindrical coordinates it will be represented as

Electromagnetic Field Theory
Which of the following statement is correct for divergence of electric and magnetic flux densities?

Electromagnetic Field Theory
If the static magnetic flux density is B, then

Electromagnetic Field Theory
RF inductor are characterized by