The two charges below are on the x‐axis, at distances a and b, respectively, from the origin as shown. Consider q1= 5x10‐6C, q2= ‐ 2x10‐6C, r1=0.1m and r2 = 0.2 m, find the magnitude of the electric fields E1 and E2.
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The two charges below are on the x‐axis, at distances a and b, respectively, from the
origin as shown. Consider q1= 5x10‐6C, q2= ‐ 2x10‐6C, r1=0.1m and r2 = 0.2 m, find the
magnitude of the electric fields E1 and E2.
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- Given the two charged particles shown in the figure below, find the electric field at the origin. (Let q₁ = -30.00 nC and 92 = 9.00 nC. Express your answer in vector form.) N/C E = -4 92 -2 y (cm) 4 2 -2 -4 2 4 91 x (cm)Consider three point-charges: q1 = -3.0 μC at (0.0 m, 0.0m); q2 = 6.0 μC at (0.40 m, 0.0 m); and q3 = 9.0 μC at (0.0 m, -0.30 m). Find the net electrostatic force (both magnitude and direction) on charge q1 due to the presence of charges q2 and q3.Here are two charges of equal magnitude but opposite sign, separated by a distance s. What is the direction (a – j) of the electric field at location 1 (marked with an X), and what is the direction (a – j) of the electric field at location 2 (marked with an X)?
- Point charges are placed at the four corners of a rectangle as shown below: q1 = 2.5 ✕ 10−6 C, q2 = −2.5 ✕ 10−6 C, q3 = 4.2 ✕ 10−6 C, and q4 = 1.7 ✕ 10−6 C. What is the electric field at P (in N/C)? (Express your answer in vector form. Assume that the +x-axis is to the right and the +y-axis is up along the page.) E = ________ N/CÈ= [dE = [k9 .. Start with... f... dxGiven the two charged particles shown in the figure below, find the electric field at the origin. (Let q₁ = -24.00 nC and 92 = 8.00 nC. Express your answer in vector form.) E E = N/C -4 -2 y (cm) 92 2 91 4 x (cm)