Consider a region where the following electric and magnetic fields are present: E = 12.52 ax + 19.68 ay + 18.72 az volts per meter and B = -12.00 ax + 18.86 ay + 18.27 az teslas. If a 1.38-coulomb charge is moving at a speed of 2.73 meters per second in the -y-direction, determine the magnitude of the Lorentz force in newtons.
Consider a region where the following electric and magnetic fields are present: E = 12.52 ax + 19.68 ay + 18.72 az volts per meter and B = -12.00 ax + 18.86 ay + 18.27 az teslas. If a 1.38-coulomb charge is moving at a speed of 2.73 meters per second in the -y-direction, determine the magnitude of the Lorentz force in newtons.
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Consider a region where the following electric and magnetic fields are present: E = 12.52 ax + 19.68 ay + 18.72 az volts per meter and B = -12.00 ax + 18.86 ay + 18.27 az teslas. If a 1.38-coulomb charge is moving at a speed of 2.73 meters per second in the -y-direction, determine the magnitude of the Lorentz force in newtons.
Transcribed Image Text:Consider a region where the following electric and magnetic fields are present: E = 12.52 ax + 19.68 ay + 18.72 az volts per meter and B = -12.00 ax + 18.86 ay + 18.27 a teslas. If a 1.38-coulomb charge is moving at a speed of 2.73 meters per second in the -y-
direction, determine the magnitude of the Lorentz force in newtons.
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