Use the following constants if necessary. Coulomb constant, k = 8.987 × 10° N · m² /C². Vacuum permitivity, eo = 8.854 x 10 1ª F/m. Magnetic Permeability of vacuum, Ho = 12.5663706144 x 10-7 H/m. Magnitude of the Charge of one electron, e = 1.60217662 × 10–19 C. Mass of one electron, me = 9.10938356 × 10 31 kg. Unless specified otherwise, each symbol carries their usual meaning. For example, µC means micro coulomb dz wire -wire 2 d1 K.- l, - K.- 12- A current carrying wire(wire-1) with i = 10 Amperes is placed at the origin on the Y-Z plane. Another current carrying wire(wire-2) with iz = 12 Amperes is placed I = 8m distance apart on the Y-axis. The point Pa is h = 6m from the wire-1. P (0,6, 6), P2 (0,6,0) and the point P3 (0, 6, 7) are on the same line. The direction of the current is given in the figure. Step 1: Consider a wire-1 only. a) Calculate magnetic field at P1 and P2 (x, y and z components) Step 2:Consider both wires b) Calculate the net magnetic field at point P2 (x, y and z components) c) Calculate the Magnetic field at point P3 (x, y and z components)

Use the following constants if necessary. Coulomb constant, k = 8.987 × 10° N · m² /C². Vacuum permitivity, eo = 8.854 x 10 1ª F/m. Magnetic Permeability of vacuum, Ho = 12.5663706144 x 10-7 H/m. Magnitude of the Charge of one electron, e = 1.60217662 × 10–19 C. Mass of one electron, me = 9.10938356 × 10 31 kg. Unless specified otherwise, each symbol carries their usual meaning. For example, µC means micro coulomb dz wire -wire 2 d1 K.- l, - K.- 12- A current carrying wire(wire-1) with i = 10 Amperes is placed at the origin on the Y-Z plane. Another current carrying wire(wire-2) with iz = 12 Amperes is placed I = 8m distance apart on the Y-axis. The point Pa is h = 6m from the wire-1. P (0,6, 6), P2 (0,6,0) and the point P3 (0, 6, 7) are on the same line. The direction of the current is given in the figure. Step 1: Consider a wire-1 only. a) Calculate magnetic field at P1 and P2 (x, y and z components) Step 2:Consider both wires b) Calculate the net magnetic field at point P2 (x, y and z components) c) Calculate the Magnetic field at point P3 (x, y and z components)

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Question

Use the following constants if necessary. Coulomb constant, k = 8.987 x 10° N · m² /C2. Vacuum permitivity, eg = 8.854 x 10 12 F/m. Magnetic
Permeability of vacuum, 40 = 12.5663706144 x 10-7 H/m. Magnitude of the Charge of one electron, e = 1.60217662 x 10-19 C. Mass of one
electron, me = 9.10938356 x 10 31 kg. Unless specified otherwise, each symbol carries their usual meaning. For example, µC means micro coulomb
dz
wire? 2i
11
→Y
-wire 2
K.- l, -
K.- 12-
A current carrying wire(wire-1) with i = 10 Amperes is placed at the origin on the Y-Z plane. Another current carrying wire(wire-2) with
iz = 12 Amperes is placed I = 8 m distance apart on the Y-axis. The point P2 is h = 6 m from the wire-1. P (0, 6, 6), P2 (0, 6,0) and the point
P3 (0, 6, 7) are on the same line. The direction of the current is given in the figure.
Step 1: Consider a wire-1 only.
a) Calculate magnetic field at P1 and P2 (x, y and z components)
Step 2:Consider both wires
b) Calculate the net magnetic field at point P2 (x, y and z components)
c) Calculate the Magnetic field at point P3 (x, y and z components)

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