#2a. Three point charges are located in the x-y plane. q1 = -42.6 nC at (0.00,...
. Three point charges are located in the x-y plane. q1 = -42.6 nC at (0.00, +3.60 cm), q2 = +45.4 nC at (-6.80 cm, 0.00) and q3 = -28.4 nC at (+8.20 cm, -9.40 cm). Determine the x component of the net electric field at the origin (0.00 m, 0.00m), due to the charges. Give your answer in the form "[+/-a.bc x 10^(x) N/C]i". Note that i is the unit vector in the x direction.
Three point charges are located in the x-y plane. q1= -42.6 nC at (0.00, +6.60 cm), q2 = +45.4 nC at (-2.80 cm, 0.00) and q3 = -28.4 nC at (+9.20 cm, -7.40 cm). Determine the x component of the net electric field at the origin (0.00 m, 0.00 m), due to the charges. Give your answer in the form "[+/-a.bc x 10^(x) N/C]i". Note that i is the unit vector in the x direction
Three point charges are located in the x-y plane. q1 = -15.6 nC at (-3.00, -4.60 cm), q2 = +25.4 nC at (+7.80 cm, 0.00) and q3 = +85.4 nC at (0.00 cm, +8.40 cm). Determine the x component of the net electric field at the origin (0.00 m, 0.00 m) due to the three charges. Give your answer in the form "(+/-a.bc Times 10^(x) N/C]i". Note that i is the unit vector in the x direction.
Two charges are located in the x-y plane. If q1--2.15 nC and is located atx-0.00 m, y 1.160 m and the second charge has magnitude of q2 = 3.60 nC and is located at x = 1.50 m, y = 0.800 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 114πε。,-899 10° N. m2/C2. Number N/C Number N/C
Two charges are located in the x–y plane. If q1 = -3.50 nC and is located at x = 0.00 m, y = 0.600 m and the second charge has magnitude of q2 = 3.60 nC and is located at x = 1.50 m, y = 0.550 m, calculate the x and y components, Ex and Ey, of the electric field, vector E , in component form at the origin, (0,0). The Coulomb Force constant is 1/(4π ε0) = 8.99...
Two charges are located in the x–y plane. If q1 = -2.90 nC and is located at x = 0.00 m, y = 1.000 m and the second charge has magnitude of q2 = 3.40 nC and is located at x = 1.40 m, y = 0.600 m, calculate the x and y components, Ex and Ey, of the electric field, , in component form at the origin, (0,0). The Coulomb Force constant is 1/(4π ε0) = 8.99 × 109...
Two charges are located in the x–y plane. If q1 = -2.30 nC and is located at x = 0.00 m, y = 0.720 m and the second charge has magnitude of q2 = 4.00 nC and is located at x = 1.20 m, y = 0.650 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/(4π ε0) = 8.99 × 109...
Two charges are located in the x–y plane. If q1 = -3.20 nC and is located at x = 0.00 m, y = 0.600 m and the second charge has magnitude of q2 = 4.00 nC and is located at x = 1.40 m, y = 0.800 m, calculate the x and y components, Ex and Ey, of the electric field, , in component form at the origin, (0,0). The Coulomb Force constant is 1/(4π ε0) = 8.99 × 109...
Two charges are located in the x-y plane. If q1-3.50 nC and is located at x 0.00 m, y 1.160 m and the second charge has magnitude of q2 3.40 nC and is located at x 1.20 m, y 0.800 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/(4тео,-8.998 109 N. m2/C2 Number N/ C Number N/C
Two charges are located in the x-y plane. If Q1 = -4.25 nC and is located at (x = 0.00 m, y = 1.200 m), and the second charge has magnitude of a = 4.00 nC and is located at (x = 1.00 m, y=0.550 m), calculate the x and y components, E, and Ey, of the electric field, E, in component form at the origin, (0,0). The Coulomb force constant is 1/(4x) = 8.99 x 10ºN.m/C? N/ CE,=