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QUESTION: 1

A spherical surface of radius of 3 mm is centered at P(4, 1, 5) in free space. If D = xu_{x} C/m^{2} the net electric flux leaving the spherical surface is

Solution:

QUESTION: 2

The electric flux density is

The volume charge density ρ_{v} at (-2, 3, 5) is

Solution:

QUESTION: 3

If D = 2ru_{r} C/m^{2}, the total electric flux leaving the surface of the cube, 0 < x , y, z < 0.4 is

Solution:

QUESTION: 4

E = 4u_{x} -3 u_{y} + 5u_{z }in the neighborhood of point P(6, 2, -3). The incremental work done in moving 5 C charge a distance of 2 m in the direction u_{x} + u_{y} + u_{z} is

Solution:

QUESTION: 5

If E = 100u_{p} V /m , the incremental amount of work done in moving a 60 μC charge a distance of 2 mm from P(1, 2, 3) toward Q(2, 1, 4) is

Solution:

The vector in this direction is

QUESTION: 6

A 10 C charge is moved from the origin to P(3, 1, -1) in the field E = 2xu_{x} - 3y^{2} u_{y} + 4u_{z} V/m along the straight line path x = -3y, y = x + 2z. The amount of energy required is

Solution:

QUESTION: 7

A uniform surface charge density of 30 nC /m^{2} is present on the spherical surface r = 6 mm in free space. The V_{AB} between A (r = 2 cm, θ = 35^{0} , Ø = 55^{0} ) and B (r = 3 cm, θ = 40^{0} , Ø = 90^{0} )

Solution:

QUESTION: 8

A point charge is located at the origin in free space. The work done in carrying a charge 10 C from point A (r = 4 cm, θ = π/6 , Ø = π/4) to B (r = 4 cm, θ = π/3 , Ø = π/6) is

Solution:

QUESTION: 9

Let a uniform surface charge density of 5 nC/m^{2} be present at the z = 0 plane, a uniform line charge density of 8 nC/m be located at x = 0, z = 4 and a point charge of 2 μC be present at P(2, 0, 0). If V = 0 at A(0, 0, 5), the V at B(1, 2, 3) is

Solution:

QUESTION: 10

A non uniform linear charge density, ρ_{L} = 6/ (z^{2} + 1) nC/m lies along the z axis. The potential at P(ρ = 1, 0, 0) in free space is (V_{∞} = 0 )

Solution:

QUESTION: 11

The annular surface, 1 cm < ρ < 3 cm carries the nonuniform surface charge density ρ_{s} = 5ρ nC/m^{2}. The V at P(0, 0, 2 cm) is

Solution:

QUESTION: 12

If V = 2xy^{2}z^{3} + 3ln(x^{2} + 2y^{2} + 3z^{2} ) in free space the magnitude of electric field E at P (3, 2, -1) is

Solution:

QUESTION: 13

It is known that the potential is given by V = 70 r^{0.6 }V. The volume charge density at r = 0.6 m is

Solution:

QUESTION: 14

The potential field V = 80r^{2} cosθ V. The volume charge density at point P(2.5, θ = 30^{0} , Ø = 60^{0} ) in free space is

Solution:

QUESTION: 15

Within the cylinder ρ = 2, 0 < z <1 the potential is given by V = 100 + 50ρ +150ρ sinØ V. The charge lies within the cylinder is

Solution:

QUESTION: 16

A dipole having

is located at the origin in free space and aligned so that its moment is in the u_{z} direction. The E at point (r = 1, 45^{0} ,Ø = 0) is

Solution:

QUESTION: 17

A dipole located at the origin in free space has a moment p = 2 x 10^{-9} u_{z} c.m. The points at which |E|_{θ } = 1 mV m on line y = z , x = 0 are

Solution:

QUESTION: 18

A dipole having a moment p = 3u_{x} - 5u_{y} + 10u_{z} nC.m is located at P(1, 2,-4) in free space. The V at Q (2, 3, 4) is

Solution:

QUESTION: 19

A potential field in free space is expressed as V =40/xyz . The total energy stored within the cube 1 < x, y, z < 2 is

Solution:

QUESTION: 20

Four 1.2 nC point charge are located in free space at the corners of a square 4 cm on a side. The total potential energy stored is

Solution:

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