3.
The instant the voltage is applied to the circuit, the voltage
across the capacitor and the total current are equal to
a.
0 volt and 5 mA, respectively.
b.
0 volt and 0 mA, respectively.
c.
10 volts and 5 mA, respectively.
d.
10 volts and 0 mA, respectively.
4.
The steadystate condition of this circuit will be reached after
a.
10.0 microseconds.
b.
17.5 microseconds.
c.
25.0 microseconds.
d.
70.0 microseconds.
5.
To completely analyze the effect that a series RC circuit will
have on a specific input pulse, you must compare the time
constant of the circuit with the reference periods. These
reference periods are identified as
a.
rest, duration, and decay times.
b.
duration, rise, and decay times.
c.
rise, duration, and rest times.
d.
decay, rest, and rise times.
6.
Assume that a square wave with a period of 12 microseconds is
applied to a series RC circuit in a timedivision multiplexing
unit. If the capacitance is 100 picofarads (micromicrofarads)
and the resistance is 1,000 ohms, the output voltage across the
resistor will resemble a
a.
triangular wave.
b.
peaked wave.
c.
square wave.
d.
sine wave.
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