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General-Study/logseq/bak/pages/G5C/2025-05-01T18_48_55.970Z.Desktop.md
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2025-05-01 13:59:40 -05:00

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G5C Resistors, capacitors, and inductors in series and parallel; transformers

  • G5C01 (C) What causes a voltage to appear across the secondary winding of a transformer when an AC voltage source is connected across its primary winding?
    • A. Capacitive coupling
    • B. Displacement current coupling
    • C. Mutual inductance
    • D. Mutual capacitance
  • G5C02 (A) What is the output voltage if an input signal is applied to the secondary winding of a 4:1 voltage step-down transformer instead of the primary winding?
    • A. The input voltage is multiplied by 4
    • B. The input voltage is divided by 4
    • C. Additional resistance must be added in series with the primary to prevent overload
    • D. Additional resistance must be added in parallel with the secondary to prevent overload
  • G5C03 (A) What is the total resistance of a 10-, a 20-, and a 50-ohm resistor connected in parallel?
    • A. 5.9 ohms
    • B. 0.17 ohms
    • C. 17 ohms
    • D. 80 ohms
  • G5C04 (D) What is the approximate total resistance of a 100- and a 200-ohm resistor in parallel?
    • A. 300 ohms
    • B. 150 ohms
    • C. 75 ohms
    • D. 67 ohms
  • G5C05 (B) Why is the primary winding wire of a voltage step-up transformer usually a larger size than that of the secondary winding?
    • A. To improve the coupling between the primary and secondary
    • B. To accommodate the higher current of the primary
    • C. To prevent parasitic oscillations due to resistive losses in the primary
    • D. To ensure that the volume of the primary winding is equal to the volume of the secondary winding
  • G5C06 (A) What is the voltage output of a transformer with a 500-turn primary and a 1500-turn secondary when 120 VAC is applied to the primary?
    • A. 360 volts
    • B. 120 volts
    • C. 40 volts
    • D. 25.5 volts
  • G5C07 (A) What transformer turns ratio matches an antennas 600-ohm feed point impedance to a 50-ohm coaxial cable?
    • A. 3.5 to 1
    • B. 12 to 1
    • C. 24 to 1
    • D. 144 to 1
  • G5C08 (D) What is the equivalent capacitance of two 5.0-nanofarad capacitors and one 750-picofarad capacitor connected in parallel?
    • A. 576.9 nanofarads
    • B. 1,733 picofarads
    • C. 3,583 picofarads
    • D. 10.750 nanofarads
  • G5C09 (C) What is the capacitance of three 100-microfarad capacitors connected in series?
    • A. 0.33 microfarads
    • B. 3.0 microfarads
    • C. 33.3 microfarads
    • D. 300 microfarads
  • G5C10 (C) What is the inductance of three 10-millihenry inductors connected in parallel?
    • A. 0.30 henries
    • B. 3.3 henries
    • C. 3.3 millihenries
    • D. 30 millihenries
  • G5C11 (C) What is the inductance of a circuit with a 20-millihenry inductor connected in series with a 50-millihenry inductor?
    • A. 7 millihenries
    • B. 14.3 millihenries
    • C. 70 millihenries
    • D. 1,000 millihenries
  • G5C12 (B) What is the capacitance of a 20-microfarad capacitor connected in series with a 50-microfarad capacitor?
    • A. 0.07 microfarads
    • B. 14.3 microfarads
    • C. 70 microfarads
    • D. 1,000 microfarads
  • G5C13 (C) Which of the following components should be added to a capacitor to increase the capacitance?
    • A. An inductor in series
    • B. An inductor in parallel
    • C. A capacitor in parallel
    • D. A capacitor in series
  • G5C14 (D) Which of the following components should be added to an inductor to increase the inductance?
    • A. A capacitor in series
    • B. A capacitor in parallel
    • C. An inductor in parallel
    • D. An inductor in series