Consider two current-carrying wires, separated by a distance d = 3.1 cm, as shown in the figure. The left wire is directed out of the page with current I1, and the right wire is directed into the page with current I2. The point P is a distance d from both wires, so the wires and the point form an equilateral triangle. a) If both wires are carrying a current of 9.5 A, what is the magnitude of the magnetic field, in tesla, at point P? b) If the current from the first wire is 9.5 A and the current from the second is 13 A, what is the magnitude of the magnetic field, in tesla, at point P?

Consider two current-carrying wires, separated by a distance d = 3.1 cm, as shown in the figure. The left wire is directed out of the page with current I1, and the right wire is directed into the page with current I2. The point P is a distance d from both wires, so the wires and the point form an equilateral triangle. a) If both wires are carrying a current of 9.5 A, what is the magnitude of the magnetic field, in tesla, at point P? b) If the current from the first wire is 9.5 A and the current from the second is 13 A, what is the magnitude of the magnetic field, in tesla, at point P?

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Question

Consider two current-carrying wires, separated by a distance d = 3.1 cm, as shown in the figure. The left wire is directed out of the page with current I₁, and the right wire is directed into the page with current I₂. The point P is a distance d from both wires, so the wires and the point form an equilateral triangle.

a) If both wires are carrying a current of 9.5 A, what is the magnitude of the magnetic field, in tesla, at point P?

b) If the current from the first wire is 9.5 A and the current from the second is 13 A, what is the magnitude of the magnetic field, in tesla, at point P?