b) The following are the two Maxwell equations related to electrostatic ав V.Ď=p₁; VxĒ=-=0 ôt i) State the relationship between electric flux density, D and electric field intensity, E ii) Given that D = zr cos 2 C/m², calculate the charge density p, at (1,7/4,5) and the total charge Q enclosed by a cylinder of radius Im with -3
b) The following are the two Maxwell equations related to electrostatic ав V.Ď=p₁; VxĒ=-=0 ôt i) State the relationship between electric flux density, D and electric field intensity, E ii) Given that D = zr cos 2 C/m², calculate the charge density p, at (1,7/4,5) and the total charge Q enclosed by a cylinder of radius Im with -3
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![b) The following are the two Maxwell equations related to electrostatic
OB
V. Ď=p₁ ; VxĒ=-=0
ôt
i) State the relationship between electric flux density, and electric field
intensity, E
ii) Given that D = zr cos² p2 C/m², calculate the charge densityp, at (1,7/4,5)
and the total charge Q enclosed by a cylinder of radius Im with -3≤ z ≤ 3m.
iii) State the mathematical expression that can be used to calculate the work
required to move a test charge Q from point P1 to point P2 through a static
electric field E.
c) Find the magnitude of the electric field at a point 0.05 m above the surface of a
solid metal sphere of radius 0.35 m carrying a net charge of 0.25nC.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F293f7f78-dcd4-43d7-9ed8-7496be6661d6%2F50af3a1f-cc0a-4cd3-aede-860188f1d2f1%2Fb31uvo_processed.jpeg&w=3840&q=75)
Transcribed Image Text:b) The following are the two Maxwell equations related to electrostatic
OB
V. Ď=p₁ ; VxĒ=-=0
ôt
i) State the relationship between electric flux density, and electric field
intensity, E
ii) Given that D = zr cos² p2 C/m², calculate the charge densityp, at (1,7/4,5)
and the total charge Q enclosed by a cylinder of radius Im with -3≤ z ≤ 3m.
iii) State the mathematical expression that can be used to calculate the work
required to move a test charge Q from point P1 to point P2 through a static
electric field E.
c) Find the magnitude of the electric field at a point 0.05 m above the surface of a
solid metal sphere of radius 0.35 m carrying a net charge of 0.25nC.
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Step 1: b) (i) State the relation between flux density and electric field:
VIEWStep 2: (ii) Calculate the charge density and the total charge:
VIEWStep 3: (iii) Expression of work required to move a test charged:
VIEWStep 4: c) Find the magnitude of electric field 0.05 m above the given charged metal sphere:
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