Four thin spherical shells with radii R₁ = 3.00 cm, R₂ = 5.00 cm, R3 = 7.00 cm, and R4 = 9.00 cm are all concentric. All shells are made of insulating material with their net charge distributed uniformly over the surface. Shell R₁ has net charge q1 +5.00 nC, shell R₂ has net charge q2 = -2.00 nC, shell R3 has net charge q3 = +7.00 nC, and shell R4 has net charge 94 = -4.00 nC. What is the potential difference between the surfaces of shell R₁ and shell R4, (V1-V4)? (use 1/4Tε = 8.988 × 10⁹ Nm²/C²) +114 V -126 V +439 V +85.6 V +1040 V +753 V

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Four thin spherical shells with radii R₁ = 3.00 cm, R₂ = 5.00 cm, R3 = 7.00 cm, and R4 = 9.00 cm
are all concentric. All shells are made of insulating material with their net charge distributed
uniformly over the surface. Shell R₁ has net charge q1 +5.00 nC, shell R2 has net charge q2 =
-2.00 nC, shell R3 has net charge 93 = +7.00 nC, and shell R4 has net charge 94 = -4.00 nC. What
is the potential difference between the surfaces of shell R₁ and shell R4, (V1-V4)? (use 1/4Tε =
8.988 x 10⁹ Nm²/C²)
+114 V
-126 V
+439 V
+85.6 V
+1040 V
+753 V
Transcribed Image Text:= Four thin spherical shells with radii R₁ = 3.00 cm, R₂ = 5.00 cm, R3 = 7.00 cm, and R4 = 9.00 cm are all concentric. All shells are made of insulating material with their net charge distributed uniformly over the surface. Shell R₁ has net charge q1 +5.00 nC, shell R2 has net charge q2 = -2.00 nC, shell R3 has net charge 93 = +7.00 nC, and shell R4 has net charge 94 = -4.00 nC. What is the potential difference between the surfaces of shell R₁ and shell R4, (V1-V4)? (use 1/4Tε = 8.988 x 10⁹ Nm²/C²) +114 V -126 V +439 V +85.6 V +1040 V +753 V
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