5. Two very long wires are bent and arranged as shown in the x-y plane. Both wires carry a 4.00 Amp current in the direction of the arrow heads. Let a = 10.0 cm. Do the straight sections that are part of the wire with the quarter circular arc contribute to the magnetic field at the origin? Explain your answer. b. Calculate the magnitude and direction of the magnetic field at the origin due to the wire with the quarter circular arc. a. C. Does the half of the infinitely long wire with current flowing in the negative x-direction contribute to the magnetic field at the origin? Explain your answer. d. Does the half of the infinitely long wire with current flowing in the positive y-direction contribute to the magnetic field at the origin? Explain your answer. Calculate the magnitude and direction of the magnetic field at the origin due to the wire with the 90° bend that divides the wire into two halves. Combine answers to parts (b) and (e) to find the total magnetic field at the origin due to both wires. e. f. #1 a #2 X
5. Two very long wires are bent and arranged as shown in the x-y plane. Both wires carry a 4.00 Amp current in the direction of the arrow heads. Let a = 10.0 cm. Do the straight sections that are part of the wire with the quarter circular arc contribute to the magnetic field at the origin? Explain your answer. b. Calculate the magnitude and direction of the magnetic field at the origin due to the wire with the quarter circular arc. a. C. Does the half of the infinitely long wire with current flowing in the negative x-direction contribute to the magnetic field at the origin? Explain your answer. d. Does the half of the infinitely long wire with current flowing in the positive y-direction contribute to the magnetic field at the origin? Explain your answer. Calculate the magnitude and direction of the magnetic field at the origin due to the wire with the 90° bend that divides the wire into two halves. Combine answers to parts (b) and (e) to find the total magnetic field at the origin due to both wires. e. f. #1 a #2 X
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Transcribed Image Text:5. Two very long wires are bent and arranged as shown in the x-y plane. Both wires carry a 4.00
Amp current in the direction of the arrow heads. Let a = 10.0 cm.
Do the straight sections that are part of the wire with the quarter circular arc contribute to
the magnetic field at the origin? Explain your answer.
b. Calculate the magnitude and direction of the magnetic field at the origin due to the wire
with the quarter circular arc.
a.
C. Does the half of the infinitely long wire with current flowing in the negative x-direction
contribute to the magnetic field at the origin? Explain your answer.
d. Does the half of the infinitely long wire with current flowing in the positive y-direction
contribute to the magnetic field at the origin? Explain your answer.
Calculate the magnitude and direction of the magnetic field at the origin due to the wire
with the 90° bend that divides the wire into two halves.
Combine answers to parts (b) and (e) to find the total magnetic field at the origin due to
both wires.
e.
f.
#1
a
#2
X
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