A current filament on the z axis carries a current of 7 mA in the az direction, and current sheets of 0.5 az A/m and −0.2 az A/m are located at ρ = 1 cm and ρ = 0.5 cm, respectively. Calculate H at: (...
A current filament on the z axis carries a current of 7 mA in the az direction, and current sheets of 0.5 az A/m and −0.2 az A/m are located at ρ = 1 cm and ρ = 0.5 cm, respectively. Calculate H at: (a) ρ = 0.5 cm; (b) ρ = 1.5 cm; (c) ρ = 4 cm. (d) What current sheet should be located at ρ = 4 cm so that H = 0 for all ρ > 4 cm?
Please explain carefully, a bit confused with other solutions that don't have an explanation.
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A current filament on the z axis carries a current of 7 mA in the az direction, and current sheets of 0.5 az A/m and −0.2 az A/m are located at ρ = 1 cm and ρ = 0.5 cm, respectively. Calculate H at: (...
Problem #4 A line current on the z-axis carries a current of -8 mA in the...
Problem #4 A line current on the z-axis carries a current of -8 mA in the a2 direction, and current sheets of K1-0.5âz A/m and K2--0.2 âz A/m are located at ρ,-0.5 cm and ρ,-1.0 cm, respectively. All currents are of infinite extent in the z direction. Calculate the magnetic field intensity H at: a) ρ-0.5 cm b) ρ: 1.5 cm c) ρ- 4.0 cm
Two infinite sheets of current flow parallel to the y-z plane as shown. The sheets are...
Two infinite sheets of current flow parallel to the y-z plane as shown. The sheets are equally spaced from the origin by xo 4.8 cm. Each sheet consists of an infinite array of wires with a density n = 15 wires/cm. Each wire in the left sheet carries a current l1 = 3.7 A in the negative z- direction. Each wire in the right sheet carries a current l2 = 5.1 A in the positive z-direction ES R P 1)...
Two infinite sheets of current flow parallel to the y-z plane as shown. The sheets are...
Two infinite sheets of current flow parallel to the y-z plane as shown. The sheets are equally spaced from the origin by x7.2 cm. Each sheet consists of an infinite array of wires with a density n 18 wires/cm. Each wire in the left sheet carries a current 3.5 A in the negative z direction. Each wire in the right sheet carries a current l2 5.7 A in the positive z-direction 2 1) What is Bx(P), the x-component of the...
A rectangular loop of wire with sides H = 28 cm and W = 67 cm is located in a region
A rectangular loop of wire with sides H = 28 cm and W = 67 cm is located in a region containing a constant magnetic field B = 1.15 T that is aligned with the positive y-axis as shown. The loop carries current I = 240 mA. The plane of the loop is inclined at an angle θ = 30° with respect to the x-axis. 1) What is ?x, the x-component of the magnetic moment
vector of the loop? A-m22) What...
A rectangular loop of wire with sides H = 23 cm and W = 78 cm is located in a region
A rectangular loop of wire with sides H = 23 cm and W = 78 cm is located in a region containing a constant magnetic field B = 1.34 T that is aligned with the positive y-axis as shown. The loop carries current I = 227 mA. The plane of the loop is inclined at an angle θ = 21° with respect to the x-axis. 1) What is μx, the x-component of the magnetic moment vector of the loop? 2) What is...
Magnetic Fields from Two Infinite Sheets of Current 1 2 3 4 5 6 7 Two...
Magnetic Fields from Two Infinite Sheets of Current
1
2
3
4
5
6
7
Two infinite sheets of current flow parallel to the y-z plane as
shown. The sheets are equally spaced from the origin by
xo = 5.5 cm. Each sheet consists of an infinite array of
wires with a density n = 14 wires/cm. Each wire in the left sheet
carries a current I1 = 3.2 A in the negative
z-direction. Each wire in the right sheet...
A rectangular loop of wire with sides H = 28 cm and W = 52 cm...
A rectangular loop of wire with sides H = 28 cm and W = 52 cm is
located in a region containing a constant magnetic field B = 0.9 T
that is aligned with the positive y-axis as shown. The loop carries
current I = 177 mA. The plane of the loop is inclined at an angle θ
= 35o with respect to the x-axis.
1) What is μx, the x-component of the magnetic moment
vector of the loop? A-m2...
A wire formed in the shape of a right triangle with base Lab = 38 cm and height Lbc = 63 cm carries current I = 245 mA...
A wire formed in the shape of a right triangle with base Lab = 38 cm and height Lbc = 63 cm carries current I = 245 mA as shown in Position 1. The wire is located in a region containing a constant magnetic field B = 0.8 T aligned with the positive z-axis. OOO OO OO BIT oooooo Position 1 C Position 2 1) What is Fac,x, the x-component of the force on the segment of the wire that...
Bl A co-axial cable can be treated as two straight cylindrical layers with length of h -6 cm, radii of a lcm and b 4 cm, that is filled with air. Let there be a charge ( +12 pC) on the inner lay...
Bl A co-axial cable can be treated as two straight cylindrical layers with length of h -6 cm, radii of a lcm and b 4 cm, that is filled with air. Let there be a charge ( +12 pC) on the inner layer and - -12 pC) on the outer layer (as shown in Fig. Bla). Assume each layer has negligible thickness. -Q bt Fig. Bla Fig. Blb (1) Find the electric field intensity E (p) and potential difference in...
Problem #4 A line current on the z-axis carries a current of -8 mA in the a2 direction, and current sheets of K1-0.5âz A/m and K2--0.2 âz A/m are located at ρ,-0.5 cm and ρ,-1.0 cm, respectively. All currents are of infinite extent in the z direction. Calculate the magnetic field intensity H at: a) ρ-0.5 cm b) ρ: 1.5 cm c) ρ- 4.0 cm
Two infinite sheets of current flow parallel to the y-z plane as shown. The sheets are equally spaced from the origin by xo 4.8 cm. Each sheet consists of an infinite array of wires with a density n = 15 wires/cm. Each wire in the left sheet carries a current l1 = 3.7 A in the negative z- direction. Each wire in the right sheet carries a current l2 = 5.1 A in the positive z-direction ES R P 1)...
Two infinite sheets of current flow parallel to the y-z plane as shown. The sheets are equally spaced from the origin by x7.2 cm. Each sheet consists of an infinite array of wires with a density n 18 wires/cm. Each wire in the left sheet carries a current 3.5 A in the negative z direction. Each wire in the right sheet carries a current l2 5.7 A in the positive z-direction 2 1) What is Bx(P), the x-component of the...
Magnetic Fields from Two Infinite Sheets of Current
1
2
3
4
5
6
7
Two infinite sheets of current flow parallel to the y-z plane as
shown. The sheets are equally spaced from the origin by
xo = 5.5 cm. Each sheet consists of an infinite array of
wires with a density n = 14 wires/cm. Each wire in the left sheet
carries a current I1 = 3.2 A in the negative
z-direction. Each wire in the right sheet...
A rectangular loop of wire with sides H = 28 cm and W = 52 cm is
located in a region containing a constant magnetic field B = 0.9 T
that is aligned with the positive y-axis as shown. The loop carries
current I = 177 mA. The plane of the loop is inclined at an angle θ
= 35o with respect to the x-axis.
1) What is μx, the x-component of the magnetic moment
vector of the loop? A-m2...
A wire formed in the shape of a right triangle with base Lab = 38 cm and height Lbc = 63 cm carries current I = 245 mA as shown in Position 1. The wire is located in a region containing a constant magnetic field B = 0.8 T aligned with the positive z-axis. OOO OO OO BIT oooooo Position 1 C Position 2 1) What is Fac,x, the x-component of the force on the segment of the wire that...
Bl A co-axial cable can be treated as two straight cylindrical layers with length of h -6 cm, radii of a lcm and b 4 cm, that is filled with air. Let there be a charge ( +12 pC) on the inner layer and - -12 pC) on the outer layer (as shown in Fig. Bla). Assume each layer has negligible thickness. -Q bt Fig. Bla Fig. Blb (1) Find the electric field intensity E (p) and potential difference in...
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