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An ideal 15Vdc source, an ideal 10uF capacitor and an ideal 5uF capacitor are connected in series.?

(1) What is the steady state Voltage amplitude across the 5uF capacitor?

(2.) After connecting a 10 Ohm resistor across the 5uF capacitor in the same circuit what now is the steady state Voltage amplitude across the 5uF capacitor?

Please include the calculations used to get your answers.

3 Antworten

Relevanz
  • vor 9 Jahren
    Beste Antwort

    The above connection is in series hence the effective capacitance would be 50/15 uF.

    C= (C1xC2)/(C1+C2)

    in series the charge stored by both the capacitor is same so the total charge stored is

    Q= CXV

    = 50

    The voltage drop across 5uF is hence 50/5 =10V

    and across another is 5V

    There is one case is assume to be correct, Since the capacitor is an ideal one, once fully charged it wont allow any current to pass. When you connect a resistance parralel to it, it discharges and thus voltage is zero.

  • vor 7 Jahren

    Steady state Voltage drops across capacitors connected in series are inversely proportional to capacitance values and the the sum of the Voltage drops equals the source Voltage.

    1.

    (V of 5uF) + 5/10(V of 5uF) = 15V

    1.5 (V of 5uF) = 15V

    V of 5uF = 10 Volts

    2.

    After adding the 10 Ohm resistor the Voltage across the 10uF capacitor charges up an additional 5 Volts through the 10 Ohm resistor.to a total Voltage of 10V + 5V = 15 Volts.

    Vof 5uF + V of 10uF must = source Voltage = 15V

    Vof 5uF = 15V - (V of 15V) = (15 - 15)V = 0 Volts

  • Rick
    Lv 7
    vor 9 Jahren

    1) When the circuit is initially connected the same current flows through all of the components. Since charge is current i times time, both caps have the same charge. Also C=Q/V so the voltage on the 5 uF cap is 6.67 volts and the voltage on the 10 uF cap is 3.33 volts.

    2) The voltage on the 5 uFcap will discharge to zero.

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