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    Practice Problems - AC Circuits

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    This document contains practice problems about alternating current circuits from Chapter 33. Problem 4 asks about calculating power loss in a 500 kV power line carrying 500 A of current over 200 km. Problem 12 asks about the RMS current through a 10-μF capacitor plugged into a 110 V, 60 Hz voltage source. Problem 13 asks about the capacitance required in a tuning circuit with 4 mH inductance for reception at 1200 kHz.

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    © All Rights Reserved
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    Practice Problems - AC Circuits

    Uploaded by

    contraster
    116 views7 pages
    This document contains practice problems about alternating current circuits from Chapter 33. Problem 4 asks about calculating power loss in a 500 kV power line carrying 500 A of current over 200 km. Problem 12 asks about the RMS current through a 10-μF capacitor plugged into a 110 V, 60 Hz voltage source. Problem 13 asks about the capacitance required in a tuning circuit with 4 mH inductance for reception at 1200 kHz.

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    Practice problems - AC circuits

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    Practice problems - AC circuits

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    This document contains practice problems about alternating current circuits from Chapter 33. Problem 4 asks about calculating power loss in a 500 kV power line carrying 500 A of current over 200 km. Problem 12 asks about the RMS current through a 10-μF capacitor plugged into a 110 V, 60 Hz voltage source. Problem 13 asks about the capacitance required in a tuning circuit with 4 mH inductance for reception at 1200 kHz.

    Copyright:

    © All Rights Reserved
    Download as PDF, TXT or read online from Scribd
    Download as pdf or txt
    116 views7 pages

    Practice Problems - AC Circuits

    Uploaded by

    contraster
    This document contains practice problems about alternating current circuits from Chapter 33. Problem 4 asks about calculating power loss in a 500 kV power line carrying 500 A of current over 200 km. Problem 12 asks about the RMS current through a 10-μF capacitor plugged into a 110 V, 60 Hz voltage source. Problem 13 asks about the capacitance required in a tuning circuit with 4 mH inductance for reception at 1200 kHz.

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    © All Rights Reserved
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    Practice Problems - Chapter 33

    Alternating Current Circuits


    Multiple Choice
    4.

    A high-voltage powerline operates at 500 000 V-rms and carries an rms current of
    500 A. If the resistance of the cable is 0.050/km, what is the resistive power loss
    in 200 km of the powerline?
    a.
    b.
    c.
    d.
    e.

    12.

    A 10-F capacitor is plugged into a 110 V-rms 60-Hz voltage source, with an
    ammeter in series. What is the rms value of the current through the capacitor?
    a.
    b.
    c.
    d.
    e.

    13.

    0.189 A (rms)
    0.292 A (rms)
    0.584 A (rms)
    1.19 A (rms)
    0.093 A (rms)

    The inductance of a tuning circuit of an AM radio is 4 mH. Find the capacitance


    of the circuit required for reception at 1200 kHz.
    a.
    b.
    c.
    d.
    e.

    18.

    0.202 A (rms)
    0.415 A (rms)
    0.626 A (rms)
    0.838 A (rms)
    0.066 A (rms)

    A 0.5-H inductor is connected into a 110 V-rms 60-Hz voltage source, with an
    ammeter in series. What is the rms value of the current through the inductor?
    a.
    b.
    c.
    d.
    e.

    15.

    250 kW
    500 kW
    1 Megawatt
    2.5 Megawatts
    250 Megawatts

    2.1 pF
    4.4 pF
    21.2 pF
    43.4 pF
    27.6 pF

    If an R = 1-k resistor, a C = 1-F capacitor, and an L = 0.2-H inductor are


    connected in series with a V = 150 sin (377t) volts source, what is the maximum
    current delivered by the source?
    a.
    b.
    c.
    d.
    e.

    0.007 A
    27 mA
    54 mA
    0.308 A
    0.34 A

    2 CHAPTER 33

    20.

    An RLC series circuit has R = 100 ohms, C = 25 F, and L = 0.16 H. For what
    angular frequency of an ac voltage is the current flow maximum?
    a.
    b.
    c.
    d.
    e.

    22.

    Determine the impedance for the circuit.

    a.
    b.
    c.
    d.
    e.
    23.

    600
    1200
    1800
    2300
    1100

    Determine the rms current for the circuit.

    a.
    b.
    c.
    d.
    e.
    30.

    251 rad/s
    500 rad/s
    757 rad/s
    884 rad/s
    79.6 rad/s

    55 mA
    77 mA
    99 mA
    0.190 A
    61 mA

    What is the average power dissipation in an RLC series circuit with R = 10,
    L = 0.1 H, C = 10 F when driven at resonance by a 100 V-rms source?
    a.
    b.
    c.
    d.
    e.

    100 W
    500 W
    1000 W
    2 kW
    700 W

    Alternating Current Circuits 3

    32.

    A transformer is to be designed to increase the 30 kV-rms output of a generator


    to the transmission-line voltage of 345 kV-rms. If the primary winding has 80
    turns, how many turns must the secondary have?
    a.
    b.
    c.
    d.
    e.

    33.

    The primary winding of an electric train transformer has 400 turns and the
    secondary has 50. If the input voltage is 120V(rms) what is the output voltage?
    a.
    b.
    c.
    d.
    e.

    37.

    15 V (rms)
    30 V (rms)
    60 V (rms)
    2.4 V (rms)
    960 V (rms)

    Calculate Vout/Vin for the circuit if R = 2 k, C = 0.02 F and V = 140V


    sin(50 000t)

    a.
    b.
    c.
    d.
    e.
    38.

    6
    70
    920
    9200
    12

    0.02
    0.45
    0.80
    0.98
    2.23

    The impedance of the parallel RLC circuit shown is given by

    a.
    b.
    c.

    1
    1
    +
    + C
    R !L
    2
    & 1 ,
    1 ) # 1/2
    +
    .
    C
    ' !
    $ 2 *
    .L ( !"
    $% R +
    1 #
    1 & 1
    '
    +$
    !
    R % (L (C "
    2

    d.

    1 #
    &
    R 2 + $ (L '
    !
    (C "
    %

    e.

    1 &
    1 #
    + $(C '
    2
    (L !"
    R
    %

    4 CHAPTER 33

    46.

    Whenever the alternating current frequency in a series RLC circuit is halved,


    a.
    b.
    c.
    d.
    e.

    47.

    The average power input to a series alternating current circuit is minimum when
    a.
    b.
    c.
    d.
    e.

    48.

    the inductive reactance is doubled and the capacitive reactance is halved.


    the inductive reactance is doubled and the capacitive reactance is doubled.
    the inductive reactance is halved and the capacitive reactance is halved.
    the inductive reactance is halved and the capacitive reactance is doubled.
    the reactance of the circuit remains the same.

    there are only a resistor and capacitor in the circuit.


    there are only a resistor and inductor in the circuit.
    there is only a resistor in the circuit.
    XL = XC and the circuit contains a resistor, an inductor and a capacitor.
    there is only a capacitor in the circuit.

    All three circuits shown below have R = 100 ! , L = 0.1 H and emf
    E = (5.0 V) sin (377 t). Which statement regarding the angular resonance
    frequencies ! A , ! B and ! C is correct?

    a.
    b.
    c.
    d.
    e.
    56.

    !C > ! A = ! B
    !C < ! A = ! B
    ! A = ! B = !C
    ! B < ! A = !C
    ! B > ! A = !C

    A 10-F capacitor in an LC circuit made entirely of superconducting materials


    ( R = 0 ! ) is charged to 100 C. Then a superconducting switch is closed. At
    t = 0 s, plate 1 is positively charged and plate 2 is negatively charged. At a later
    time, Vab = +10V . At that time, Vdc is

    a.
    b.
    c.
    d.
    e.

    0 V.
    3.54 V.
    5.0 V.
    7.07 V.
    10 V.

    Alternating Current Circuits 5

    Open-Ended Problems
    57.

    Suppose the circuit parameters in a series RLC circuit are: L = 1.0 H, C = 10.0 nF,
    R = 100, and the source voltage is 220 V. Determine the resonant frequency of
    the circuit and the amplitude of the current at resonance.

    58.

    A 10- resistor, 10-mH inductor, and 10-F capacitor are connected in series with
    a 10-kHz voltage source. The rms current through the circuit is 0.20 A. Find the
    rms voltage drop across each of the 3 elements.

    59.

    An ac power generator produces 50 A (rms) at 3600 V. The voltage is stepped up


    to 100 000 V by an ideal transformer and the energy is transmitted through a
    long distance power line which has a resistance of 100 ohms. What percentage of
    the power delivered by the generator is dissipated as heat in the long-distance
    power line?

    6 CHAPTER 33

    Chapter 33
    Alternating Current Circuits
    1.

    29.

    2.

    30.

    3.

    31.

    4.

    32.

    5.

    33.

    6.

    34.

    7.

    35.

    8.

    36.

    9.

    37.

    10.

    38.

    11.

    39.

    12.

    40.

    13.

    41.

    14.

    42.

    15.

    43.

    16.

    44.

    17.

    45.

    18.

    46.

    19.

    47.

    20.

    48.

    21.

    49.

    22.

    50.

    23.

    51.

    24.

    52.

    25.

    53.

    26.

    54.

    27.

    55.

    28.

    56.

    Alternating Current Circuits 7

    57.

    1.59 MHz, 2.2 A

    58.

    2.0 V, 125.6 V, 0.318 V

    59.

    0.18%

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