= 15 µC are located in Figure 1. A rod with length 3) Point charges q = 35 µC, q,= -25 µC, and L=2 m has a total charge q=90 µC and a uniform linear charge density 2=45 µC/m in Figure 2. (a) Find the potential at P in Figure 1. (b) Find the total potential energy of charge system in Figure 1. (c) Find the total potential at P in Figure 2. (k = 9×10º N×m²/C², and µ= 10-6) 93 λ- 45 μC/m q35 μC q-35 μC + L = 2 m 0.3 m 0.5 m 0.3 m 93 = 15 µC + 0.1 m 0.1 m --> 0.3 m 0.3 m 0.3 m 0.3 m 0.5 m g-25 μC 92 = -25 µC Figure 1 Figure 2 q= 90 µC
= 15 µC are located in Figure 1. A rod with length 3) Point charges q = 35 µC, q,= -25 µC, and L=2 m has a total charge q=90 µC and a uniform linear charge density 2=45 µC/m in Figure 2. (a) Find the potential at P in Figure 1. (b) Find the total potential energy of charge system in Figure 1. (c) Find the total potential at P in Figure 2. (k = 9×10º N×m²/C², and µ= 10-6) 93 λ- 45 μC/m q35 μC q-35 μC + L = 2 m 0.3 m 0.5 m 0.3 m 93 = 15 µC + 0.1 m 0.1 m --> 0.3 m 0.3 m 0.3 m 0.3 m 0.5 m g-25 μC 92 = -25 µC Figure 1 Figure 2 q= 90 µC
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Transcribed Image Text:3) Point charges q1 = 35 µC, q,= -25 µC, and q;
L=2 m has a total charge q=90 µC and a uniform linear charge density 1=45 µC/m in Figure
(a) Find the potential at P in Figure 1.
(b) Find the total potential energy of charge system in Figure 1.
(c) Find the total potential at P in Figure 2. (k = 9×10° N×m²/C², and µ= 10-6)
15 µC are located in Figure 1. A rod with length
λ-45 μC/m
91 = 35 µC
q1 = 35 µC
+
L = 2 m
0.3 m
0.5 m
0.3 m
g3-15 μC
P
+
0.1 m
- 0.1 m -->
0.3 m
0.3 m
0.3 m
0.5 m
0.3 m
q2 = -25 µC
q2 = -25 µC
-1|
Figure 2
Figure 1
q= 90 µC
+
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