The switch S in ( Figure 1 ) is connected downward so that capacitor C 2 becomes

Question

The switch S in (Figure 1) is connected downward so that capacitor C2 becomes fully charged by the battery of voltage V0. The switch S in (Figure 1) is connected downward so that capacitor C2 becomes fully charged by the battery of voltage V0. The switch S in (Figure 1) is connected downward so that capacitor C2 becomes fully charged by the battery of voltage V0. The switch S in (Figure 1) is connected downward so that capacitor C2 becomes fully charged by the battery of voltage V0. Part A If the switch is then connected upward, determine the charge on capacitor C1 after the switching. Express your answer in terms of C1, C2, and V0. Q1 =
SubmitMy AnswersGive Up Part B If the switch is then connected upward, determine the charge on capacitor C2 after the switching. Express your answer in terms of C1, C2, and V0. Q2 =
SubmitMy AnswersGive Up Provide Feedback Part A If the switch is then connected upward, determine the charge on capacitor C1 after the switching. Express your answer in terms of C1, C2, and V0. Q1 =
SubmitMy AnswersGive Up Part B If the switch is then connected upward, determine the charge on capacitor C2 after the switching. Express your answer in terms of C1, C2, and V0. Q2 =
SubmitMy AnswersGive Up Part A If the switch is then connected upward, determine the charge on capacitor C1 after the switching. Express your answer in terms of C1, C2, and V0. Q1 =
SubmitMy AnswersGive Up Part B If the switch is then connected upward, determine the charge on capacitor C2 after the switching. Express your answer in terms of C1, C2, and V0. Q2 =
SubmitMy AnswersGive Up Part A If the switch is then connected upward, determine the charge on capacitor C1 after the switching. Express your answer in terms of C1, C2, and V0. Q1 =
SubmitMy AnswersGive Up Part B If the switch is then connected upward, determine the charge on capacitor C2 after the switching. Express your answer in terms of C1, C2, and V0. Q2 =
SubmitMy AnswersGive Up Part A If the switch is then connected upward, determine the charge on capacitor C1 after the switching. Express your answer in terms of C1, C2, and V0. Q1 =
SubmitMy AnswersGive Up Part A If the switch is then connected upward, determine the charge on capacitor C1 after the switching. Express your answer in terms of C1, C2, and V0. Q1 =
SubmitMy AnswersGive Up Q1 =
Q1 =
SubmitMy AnswersGive Up Part B If the switch is then connected upward, determine the charge on capacitor C2 after the switching. Express your answer in terms of C1, C2, and V0. Q2 =
SubmitMy AnswersGive Up Part B If the switch is then connected upward, determine the charge on capacitor C2 after the switching. Express your answer in terms of C1, C2, and V0. Q2 =
SubmitMy AnswersGive Up Q2 =
Q2 =
SubmitMy AnswersGive Up Provide Feedback of 1 The switch S in (Figure 1) is connected downward so that capacitor C2 becomes fully charged by the battery of voltage V0. Part A If the switch is then connected upward, determine the charge on capacitor C1 after the switching. Express your answer in terms of C1, C2, and V0. Q1 =
SubmitMy AnswersGive Up Part B If the switch is then connected upward, determine the charge on capacitor C2 after the switching. Express your answer in terms of C1, C2, and V0. Q2 =
SubmitMy AnswersGive Up Provide Feedback of 1

Explanation / Answer

Charge on C2 , Q2 = C2*Vo

KVL

Q2 - Qeq / C2 = Qeq / C1

Q2/C2 = Qeq(1/C1 + 1/C2)

Vo*C1C2 / (C1+C2) = Qeq

so, charge on C1 , Q1 = Vo*C1C2 / (C1+C2)

b)

Q2' = Q2 - Qeq = C2*Vo - Vo*C1C2 / (C1+C2) = C2*Vo(1 - C1/C1+C2) = Vo*C2^2 / (C1+C2)

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