ectron initially placed 0.20 mm to the right of a small charged sphere moves to the right with an initial acceleration of 3.6×107 m/s2 What is the magnitude of the charge on the sphere? (Ignore gravity.) Express your answe
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A: Given: q1=1.3 mC = 1.3*10-3 C q2=1.7 mC = 1.7*10-3 C q3 = 0 r12 = 3.7m r23=10m
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A: Force between charge q and 6nC = ( K x q x 6nC )/ r212 =( 9*109 * 4.74 * 6* 10-18 ) /( .225)2…
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Q: A small metal sphere has a mass of 0.11 g and a charge of -21.0 nC. It is 10.0 cm directly above an…
A: Given Mass of the each sphere is m=0.11 g=0.11×10-3 kg Charge of each sphere is q=-21.0 nC=-21.0…
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Q: q1 = (8.60x10^-9) C q2 = (1.232x10^-8) C x = (6.060x10^1) m d = (3.3000x10^0) m Find the…
A: Given q1=8.6*10^-9 C q2=1.232*10^-8 C x=6.060*10^1m d=3.300*10^0 m Coulomb's law E=KQ/r2
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Q: 1. Three charges are in a row, as in the diagram below. Here charges Q₁ = Q₂ = Q3 +4.0nC. If r₁ =…
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A: Given data: Test charge (q) = +7 μC = +7×10-6 C Charge (q1 ) = +6 μC = +6×10-6 C Charge (q2 ) = +9…
Q: Suppose Q₁ = 4.0 nC and Q2 = 9.0 nC (Figure 1). You may want to review (Pages 631-635). Figure + Q₁…
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Q: Part A What is the magnitude of the electric field at a distance from the sphere's center of 0.350 m…
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An electron initially placed 0.20 mm to the right of a small charged sphere moves to the right with an initial acceleration of 3.6×107 m/s2
Given:
radius,
acceleration,
Step by step
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