Q3) Two infinitely long wires with currents i = 2 A and iz = 3 A are parallel to each other, as shown in the figure. The separation between the two wires is d = 10 cm. 6 com d a) What are the magnitude and the direction of the force wire 1 exerts on 1 m of wire 2? b) Calculate the magnitude and direction of the total magnetic field at point P due to the wires. A charged particle with charge Q = 2 nC enters the space between the two wires. c) Find the total force acting on this particle at point P, assuming that the velocity of the particle at this point is given by v = (15î – 32k)™.
Q3) Two infinitely long wires with currents i = 2 A and iz = 3 A are parallel to each other, as shown in the figure. The separation between the two wires is d = 10 cm. 6 com d a) What are the magnitude and the direction of the force wire 1 exerts on 1 m of wire 2? b) Calculate the magnitude and direction of the total magnetic field at point P due to the wires. A charged particle with charge Q = 2 nC enters the space between the two wires. c) Find the total force acting on this particle at point P, assuming that the velocity of the particle at this point is given by v = (15î – 32k)™.
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Transcribed Image Text:Q3) Two infinitely long wires with currents i = 2 A and iz = 3 A are parallel to each
other, as shown in the figure. The separation between the two wires is d = 10 cm.
6 com
d
a) What are the magnitude and the direction of the force wire 1 exerts on 1 m of wire
2?
b) Calculate the magnitude and direction of the total magnetic field at point P due to
the wires.
A charged particle with charge Q = 2 nC enters the space between the two wires.
c) Find the total force acting on this particle at point P, assuming that the velocity of
the particle at this point is given by v = (15î – 32k)™.
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