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During this term, you have studied inductors and capacitors, as well as the basics of ac,...

During this term, you have studied inductors and capacitors, as well as the basics of ac, test equipment, and the effects of reactance, impedance, and resonance. Based on that knowledge and experimentation, answer the following practical application questions.

Describe the physical characteristics of a basic inductor.

Describe the physical characteristics of a basic capacitor.

If an oscilloscope shows a 20 Vpp sine wave, how would you determine the rms value? Calculate what that Vrms value would be.

What is the relationship of a sine wave’s frequency to its period?

In a circuit with an inductor and a resistor, what happens to impedance as frequency increases?

In a circuit with a capacitor and a resistor, what happens to impedance as frequency increases?

In a circuit with a resistor, an inductor, and a capacitor, what happens to each of the following values as frequency increases from below resonance to above resonance?

XL

XC

Z

What is the relationship of XC and XL at the resonant frequency?

Which two of the following devices will display the Vrms value of a sine wave?

Oscilloscope

Function Generator

Digital Multimeter

Power Supply

Define capacitive reactance and inductive reactance, and state what units they are measured in.

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