For the following circuit:
At t=0 the voltage drop on the capacitor is and
points s and 1 are connected.
1) Which of the following statement describe what will happen in the circuit ? (select one)
a. The capacitor will be charged to a final voltage of , with I
being the current in the circuit
b. The capacitor will disconnect the circuit so no current will exist
c. The voltage will oscillate at an angular frequency of
d. The voltage will oscillate at an angular frequency of of
e. The capacitor will be charged to a final voltage of E
2) After a long period, we connect s-2. What will happen to the circuit now?
a. There will be oscillations in the current (voltage) at a
frequency of
b. There is no voltage source in the circuit, so no current will exist.
c. The capacitor will discharge through the coil in an exponential manner, with a time constant of RC
d. There will be oscillations in the current (voltage) at a
frequency of
e. The capacitor will discharge through the coil in an
exponential manner, with a time constant of
3) We choose the connection moment of s-2 to be t=0.
For the following values :
. What is the closest time that the connection can be switched back
to s-1, so that no current will flow in the upper circuit ?
Homework Answers
Add Answer to:
For the following circuit:
At t=0 the voltage drop on the capacitor is and
points s...
Consider an RC circuit with R=8.10 k, C=1.30 F. The rms applied voltage is 240 V...
Consider an RC circuit with R=8.10 k,
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Part A:
What is the rms current in the circuit?
Part B:
What is the phase angle between voltage and current?
Part C:
What are the voltmeter readings across R and C?
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Consider an RC circuit with R=8.10 k,
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Part B:
What is the phase angle between voltage and current?
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What are the voltmeter readings across R and C?
We were unable to transcribe this imageWe were unable to transcribe this image
8. Capacitance in circuits, RC circuits When a voltage source Vo is applied to a capacitor in a circuit which has a resistance R, a charge Q CV will build up across the capacitor. This does not happen instantaneously, but takes some time. The charge builds up exponentially with a characteristic time r = RC. Charging: V = v. 1 - e-t/RC) Discharging: Vc = V e-t/RC Page 2 of 3 When t = RC , the exponential is lle,...
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For part (c) of the Check Your Understanding 14.10 I got 1800
rad/s for the angular frequency, am I right? The book gives the
answer as 1.4 * 10^3 rad/s. Also for part (b) I got -pi/2 rad, but
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came from. I've attached the problem below. Please don't solve the
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