At one point in space, the direction of the electric field vector is given in the Cartesian system by the unit vector E ^= 1/V5i-215j . If the magnitude of the electric field vector is E = 400.0 V/m, what are the scalar components Ex , Ey, and Ez of the electric field vector E-at this point? What is the direction angle 6; of the electric field vector at this point? Ex = 178.9 V/m Ey = 357.8 Vim A Ez = 0.0 V/m e = tan'(2) Ex = 178.9 V/m Ey = 357.8 V/m B Ez= 100.0 V/m e = tan (2) Ex= 178.9 V/m Ey = 357.8 V/m Ez= 0.0 V/m e = tan (1) Ex = 278.9 V/m Ey = 357.8 V/m Ez = 0.0 V/m e = tan (2)

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Chapter1: Units, Trigonometry. And Vectors
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At one point in space, the direction of the electric field vector is given in the Cartesian system by the unit vector E ^= 1/V5i-215j
. If the magnitude of the electric field vector is E = 400.0 V/m, what are the scalar components Ex, Ey, and Ez of the electric field
vector E-at this point? What is the direction angle 6; of the electric field vector at this point?
Ex = 178.9 V/m
Ey= 357.8 V/m
A
Ez = 0.0 V/m
e = tan'(2)
Ex = 178.9 V/m
Ey = 357.8 V/m
B
Ez= 100.0 V/m
e = tan-(2)
Ex= 178.9 V/m
Ey = 357.8 V/m
Ez= 0.0 V/m
e = tan (1)
Ex = 278.9 V/m
Ey = 357.8 V/m
Ez = 0.0 V/m
e = tan-(2)
Transcribed Image Text:At one point in space, the direction of the electric field vector is given in the Cartesian system by the unit vector E ^= 1/V5i-215j . If the magnitude of the electric field vector is E = 400.0 V/m, what are the scalar components Ex, Ey, and Ez of the electric field vector E-at this point? What is the direction angle 6; of the electric field vector at this point? Ex = 178.9 V/m Ey= 357.8 V/m A Ez = 0.0 V/m e = tan'(2) Ex = 178.9 V/m Ey = 357.8 V/m B Ez= 100.0 V/m e = tan-(2) Ex= 178.9 V/m Ey = 357.8 V/m Ez= 0.0 V/m e = tan (1) Ex = 278.9 V/m Ey = 357.8 V/m Ez = 0.0 V/m e = tan-(2)
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