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

V = IR.

J = E / σ.

J = σE.

R = ρ × ( l / A).

V = IR.

J = E / σ.

J = σE.

R = ρ × ( l / A).

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Electromagnetic Field Theory
Gradient of scalar field is expressed as

Maximum rate of increase of scalar function at a point.

Circulation of a vector field per unit area as the area tends to zero.

Gradient of divergence of a vector field minus the curl of the vector field.

Outward flux of a vector field per unit volume as the volume about the point tends to zero.

Maximum rate of increase of scalar function at a point.

Circulation of a vector field per unit area as the area tends to zero.

Gradient of divergence of a vector field minus the curl of the vector field.

Outward flux of a vector field per unit volume as the volume about the point tends to zero.

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Electromagnetic Field Theory
A negative point charge q = - 40 nC is moving with velocity of 6 × 106 m/s in a direction specited by unit vector uy + 0.6 uz. Find the magnitude of force vector on the moving particle by the field B = 2 ux + 3 uy + 5 uz mT and E = 2 ux - 3 uy + 5 uz KV/m

244 μN.

1144 μN.

144 μN.

1440 μN.

244 μN.

1144 μN.

144 μN.

1440 μN.

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Electromagnetic Field Theory
Two point charges (Q and – Q) are situated at the vertex of the square. If potential at another vertex is 2 V, so potential at opposite vertex (diagonally) is

1 V.

Zero.

2 V.

√ 2 V.

1 V.

Zero.

2 V.

√ 2 V.

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Electromagnetic Field Theory
The force on a charge moving with velocity v under the influence of electric and magnetic fields is given by which one of the following

q(E +V × H).

q(E + V × B).

q(H + V × E).

q(E + B × V).

q(E +V × H).

q(E + V × B).

q(H + V × E).

q(E + B × V).

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Electromagnetic Field Theory
The radiation pattern of loop antenna is

Cardoid or Limacon

Elliptical

Circle

Semicircle

Cardoid or Limacon

Elliptical

Circle

Semicircle

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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 Gradient of scalar field is expressed as

Electromagnetic Field Theory A negative point charge q = - 40 nC is moving with velocity of 6 × 106 m/s in a direction specited by unit vector uy + 0.6 uz. Find the magnitude of force vector on the moving particle by the field B = 2 ux + 3 uy + 5 uz mT and E = 2 ux - 3 uy + 5 uz KV/m

Electromagnetic Field Theory Two point charges (Q and – Q) are situated at the vertex of the square. If potential at another vertex is 2 V, so potential at opposite vertex (diagonally) is

Electromagnetic Field Theory The force on a charge moving with velocity v under the influence of electric and magnetic fields is given by which one of the following

Electromagnetic Field Theory The radiation pattern of loop antenna is

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

Electromagnetic Field Theory
Gradient of scalar field is expressed as

Electromagnetic Field Theory
A negative point charge q = - 40 nC is moving with velocity of 6 × 106 m/s in a direction specited by unit vector uy + 0.6 uz. Find the magnitude of force vector on the moving particle by the field B = 2 ux + 3 uy + 5 uz mT and E = 2 ux - 3 uy + 5 uz KV/m

Electromagnetic Field Theory
Two point charges (Q and – Q) are situated at the vertex of the square. If potential at another vertex is 2 V, so potential at opposite vertex (diagonally) is

Electromagnetic Field Theory
The force on a charge moving with velocity v under the influence of electric and magnetic fields is given by which one of the following

Electromagnetic Field Theory
The radiation pattern of loop antenna is