Given the magnetic field vector potential: A= y z ax +2 x y z ay-xz az (A/m), find: (1) magnetic flux density B, (2)magnetic field intensity H, (3)current density J. B=(zx) ay + (2yx)az; H=796178.34 B; J-796178.34 [(2x)ax + 4 az] O B=(5xz) ax +(zy) ay + (2yz)az; H=796178.34 B; J-796178.34 [(22)ax + 2y az] B=(-2xy) ax +(z+y) ay + (2yz-z)az ; H=796178.34 B; J-796178.34 [(2z-1)ax + 2x az] O

Introductory Circuit Analysis (13th Edition)
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Given the magnetic field vector potential:
A= y z ax +2 x y z ay-xz az (A/m), find:
(1) magnetic flux density B, (2)magnetic field intensity H, (3)current density J.
B=(zx) ay+ (2yx)az; H-796178.34 B; J-796178.34 [(2x)ax + 4 az]
B=(5xz) ax +(zy) ay + (2yz)az; H=796178.34 B; J-796178.34 [(22)ax + 2y az]
B=(-2xy) ax +(z+y) ay + (2yz-z) az ; H=796178.34 B; J=796178.34 [(2z-1)ax + 2x az]
4
Transcribed Image Text:4 Given the magnetic field vector potential: A= y z ax +2 x y z ay-xz az (A/m), find: (1) magnetic flux density B, (2)magnetic field intensity H, (3)current density J. B=(zx) ay+ (2yx)az; H-796178.34 B; J-796178.34 [(2x)ax + 4 az] B=(5xz) ax +(zy) ay + (2yz)az; H=796178.34 B; J-796178.34 [(22)ax + 2y az] B=(-2xy) ax +(z+y) ay + (2yz-z) az ; H=796178.34 B; J=796178.34 [(2z-1)ax + 2x az] 4
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