Two conductor wires with currents I₁ = 3.2 x 105 A and I₂ = 9.6 × 105 A are located inside a uniform electric field E = (117) N/C. The directions of the currents on the conductor wires are shown in the figure right. For the given instant, a charge particle (q = 4.4C) is passing at the center of the circle formed by the conductor wires with a velocity = (3.3i - 2.6j)m/s. What is the net force acting on the charged particle for that instant? (Take μo = 4710-7Tm/A, and R = 12cm.) Provide your answer with zero decimal place. 10+ NY 12
Two conductor wires with currents I₁ = 3.2 x 105 A and I₂ = 9.6 × 105 A are located inside a uniform electric field E = (117) N/C. The directions of the currents on the conductor wires are shown in the figure right. For the given instant, a charge particle (q = 4.4C) is passing at the center of the circle formed by the conductor wires with a velocity = (3.3i - 2.6j)m/s. What is the net force acting on the charged particle for that instant? (Take μo = 4710-7Tm/A, and R = 12cm.) Provide your answer with zero decimal place. 10+ NY 12
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Transcribed Image Text:Two conductor wires with currents I₁ = 3.2 × 105 A and I2 = 9.6 × 105 A are located inside a uniform electric field E = (117j) N/C. The
directions of the currents on the conductor wires are shown in the figure right. For the given instant, a charge particle (q = 4.4C) is passing at the center
of the circle formed by the conductor wires with a velocity v = (3.3i - 2.6j)m/s. What is the net force acting on the charged particle for that instant?
(Take 40 = 4710-¹Tm/A, and R = 12cm.) Provide your answer with zero decimal place.
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12
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