Two equal charges are situated on the x axis at 40.0 cm on either side of the origin as shown in the figure below. Location A is on the perpendicular bisector at a distance of 33.0 cm from the origin on the y axis. (Assume that the +x axis is directed to the right and the +y axis is directed up.) 92 (a) If q, = -4.00 pC and q, = -4.00 µC, what is the net electric field due to both charges at location A7 Express your answer in vector form. Did you consider the symmetry of the situation? What is the net contribution to the field from the x components of the field from each charge? N/C (b) If q, = 49, (where q, = -4.00 µC), what is the net electric field at location A due to both charges? Express your answer in vector form. Epet = N/C

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Two equal charges are situated on the x axis at 40.0 cm on either side of the origin as shown in the figure below. Location A is on the perpendicular bisector at a distance of 33.0 cm from the origin on the y axis. (Assume that the +x axis is directed to the right and the
+y axis is directed up.)
*A
92
(a) If q, = -4.00 µC and q, = -4.00 µc, what is the net electric fleld due to both charges at location A? Express your answer in vector form.
Eret = 0
Did you consider the symmetry of the situation? What is the net contribution to the field from the x components of the field from each charge? N/C
(b) If q, = 49, (where q, = -4.00 uC), what is the net electric field
location A due to both charges? Express your answer in vector form.
Enet =
N/C
Additional Materlals
Transcribed Image Text:Two equal charges are situated on the x axis at 40.0 cm on either side of the origin as shown in the figure below. Location A is on the perpendicular bisector at a distance of 33.0 cm from the origin on the y axis. (Assume that the +x axis is directed to the right and the +y axis is directed up.) *A 92 (a) If q, = -4.00 µC and q, = -4.00 µc, what is the net electric fleld due to both charges at location A? Express your answer in vector form. Eret = 0 Did you consider the symmetry of the situation? What is the net contribution to the field from the x components of the field from each charge? N/C (b) If q, = 49, (where q, = -4.00 uC), what is the net electric field location A due to both charges? Express your answer in vector form. Enet = N/C Additional Materlals
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