two charges, +q and -q, are located in the x-y plane at points (0,+d/2) and (0,-d/2), respectively. Calculate the magnitude of the electric field at point p with the superposition principle. Data: q=33.0 nC, d=2.00 mm, and p is at x = 40.0 mm
Here we use superposition principle for the solution and field
due to a charge,***************************************************************************************************
This concludes the answers. If there is any mistake,
let me know immediately and I will fix
it....
two charges, +q and -q, are located in the x-y plane at points (0,+d/2) and (0,-d/2),...
Part A Two charges, +q and -q, are located in the x-y plane at points (0,+d/2) and (0,-d/2), respectively. Calculate the magnitude of the electric field at point P with the superposition principle. Data: q = 13.0 nC, d = 4.40 mm and P is at x = 88.0 mm. Part B In the previous problem, you can get an approximate answer for the electric field at point P by using the electric dipole approximation which is valid for the...
Two charges, +q and -q, are located in the x-y plane at points (0,+d/2) and (0,-d/2), respectively. Calculate the magnitude of the electric field at point P with the superposition principle +q Data: q33.0 nC, d 2.00 mm and P is atx40.0 mm Submit Answer Tries 0/12 In the previous problem, you can get an approximate answer for the electric field at point P by using the electric dipole approximation which is valid for the limit x>>d. Calculate the magnitude...
Part A Two charges, q and a, are located in the x y planc at points (0, d/2) and (0, d/2) ), respectively. Calculatc the m magnitude of thc clectric field at point P with the super position principlc +q -q Data: 9-17.0 nC, d-4.00 mm and P is at x-80.0 mm. Tries o/6 Submit Answer Part B In the previous problem, you can get an approximate answer for the electric field at point P by using the electric dipole...
Two charges are located in the x-y plane. If q,--4.25 nC and is located at (x = 0.00 m, y = 0.880 m), and the second charge has magnitude of q24.80 nC and is located at (x-1.30 m, y- 0.800 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/(4zco)-8.998 109 N-m2/C2. Ex- N/C
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Two charges are located in the x-y plane. If q-3.95 nC and is located at x -0.00 m, y 0.840 m and the second charge has magnitude of q2 3.60 nC and is located at x - 1.00 m, y -0.700 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 x 109 N·m2/C2 Number E24.89N/C Number E,- 47.74 N/ C
Two charges are located in the x-y plane. If q-3.65 nC and is located at (x0.00 m, y 0.760 m), and the second charge has magnitude of g2 4.60 nC and is located at (x - 1.00 m, y - 0450 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/K4xco) 8.99 x 10° N m2/c2 Ex N/C Ey N/C
Two charges are located in the x-y plane. If q -2.30 nC and is located atx 0.00 m, y 1.080 m and the second charge has magnitude of qz 4.20 nC and is located at x 1.40 m, y 0.750 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/(4To) -8.99 x10° N m2ic? Number N/C Number N/C
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 ql--395 nC and is located at (x 0.00 m,y-0.880 m), and the second charge has magnitude of q 4.40 nC and is located at (x = 1 .50 m,y-0400 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/(4mo) 8.99x109 N·m2/C2 Ex NC E, NC