Two test charges are located in the x−y plane. If q1 = −3.200 nC and is located at x1 = 0.00 m, y1 = 1.2000 m, and the second test charge has magnitude of q2 = 3.600 nC and is located at x2 = 1.300 m, y2 = 0.450 m, calculate the x and y components, Ex and Ey, of the electric field E→ in component form at the origin, (0, 0). The Coulomb force constant is 1/(4πϵ0) = 8.99×109 N⋅m2/C2 Ex = N/C Ey = N/C

Two test charges are located in the x−y plane. If q1 = −3.200 nC and is located at x1 = 0.00 m, y1 = 1.2000 m, and the second test charge has magnitude of q2 = 3.600 nC and is located at x2 = 1.300 m, y2 = 0.450 m, calculate the x and y components, Ex and Ey, of the electric field E→ in component form at the origin, (0, 0). The Coulomb force constant is 1/(4πϵ0) = 8.99×109 N⋅m2/C2 Ex = N/C Ey = N/C

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Two test charges are located in the x y plane. If q 1 = 3.200 nC and is located at x 1 = 0.00 m , y 1 = 1.2000 m , and the second test charge has magnitude of q 2 = 3.600 nC and is located at x 2 = 1.300 m , y 2 = 0.450 m , calculate the x and y components, E x and E y , of the electric field E in component form at the origin, ( 0 , 0 ) . The Coulomb force constant is 1 / ( 4 π ϵ 0 ) = 8.99 × 10 9 N m 2 / C 2
E x = N / C E y = N / C

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