Consider the circuit shown in the figure below. The ideal battery provides an emf = 7.00 V, and the initially uncharged capacitorhas capacitance C = 8.53 µF. The resistors are R₁ = 2R, R₂ = 4R, and R3 = 7R where R = 15 2. The switch is closed at t = 0.EL(a) How much current passes through the capacitor at t = 0?mAMR₁(b) How much current passes through the capacitor at t = ∞?mAS(c) How much charge is eventually stored on the capacitor at t = ∞?μCR₂C ≤R3с(d) How long does it take for the charge on capacitor to increase to 80% of its eventual charge?μs(e) Suppose that the initially uncharged capacitor was filled with a dielectric with dielectric constant & before the switch wasclosed at t = 0. In this case, your answer to part (d) woulddecreaseremain the sameincrease

Since you have posted a question with more than three subparts, we will solve first three subparts.…

Consider the circuit shown in the figure below. The ideal battery provides an emf & = 7.00 V, and the initially uncharged capacitor has capacitance C = 8.53 μF. The resistors are R₁ = 2R, R₂ = 4R, and R3 = 7R where R = 15 2. The switch is closed at t = 0. (a) How much current passes through the capacitor at t = 0? mA (b) How much current passes through the capacitor at t = ∞o? MA R₁ S (c) How much charge is eventually stored on the capacitor at t = ∞o? μC R₂ C ≤R3

Consider the circuit shown in the figure below. The ideal battery provides an emf & = 7.00 V, and the initially uncharged capacitor has capacitance C = 8.53 μF. The resistors are R₁ = 2R, R₂ = 4R, and R3 = 7R where R = 15 2. The switch is closed at t = 0. (a) How much current passes through the capacitor at t = 0? mA (b) How much current passes through the capacitor at t = ∞o? MA R₁ S (c) How much charge is eventually stored on the capacitor at t = ∞o? μC R₂ C ≤R3

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Question

Consider the circuit shown in the figure below. The ideal battery provides an emf = 7.00 V, and the initially uncharged capacitor
has capacitance C = 8.53 µF. The resistors are R₁ = 2R, R₂ = 4R, and R3 = 7R where R = 15 2. The switch is closed at t = 0.
E
L
(a) How much current passes through the capacitor at t = 0?
mA
M
R₁
(b) How much current passes through the capacitor at t = ∞?
mA
S
(c) How much charge is eventually stored on the capacitor at t = ∞?
μC
R₂
C ≤R3
с
(d) How long does it take for the charge on capacitor to increase to 80% of its eventual charge?
μs
(e) Suppose that the initially uncharged capacitor was filled with a dielectric with dielectric constant & before the switch was
closed at t = 0. In this case, your answer to part (d) would
decrease
remain the same
increase

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Step 1: Determine the given data:

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Step 2: a) Determine the current through the capacitor at t=0:

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Step 3: b) Calculate the current passes through the capacitor at t= infinite:

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Step 4: (c) Calculate the charge stored in the capacitor at t= infinite:

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