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Consider the circuit below, where R-5000Ω,C-0.25μF . The voltage amplitude is 10 V and the frequency of oscillation is 180 rad Is . When voltages and currents are requested, express them in purely real terms. Note: this circuit is examined in some detail in Chapter 7, section 2. Have a look at that first. a) What is the total impedance? Express it as both a complex number and as magnitude and phase. What is the current in the circuit? What is the maximum current in the circuit? What is the voltage across the resistor? This will involve a phase angle. What is the phase angle with respect to? b) c) d) e) What is the current through the resistor? This will involve a phase angle. What is the phase f What is the voltage across the capacitor? This will involve a phase angle. What is the phase g) If you compare the magnitudes of the voltages across the capacitor and the resistor you will angle with respect to? angle with respect to? see that they do not add up to 10 V. However, by making a plot of the voltages over say a 1/10 th of a second, show that at any instant the voltages do indeed add up to 10 V The voltage across the resistor is not in phase with the voltage of the source. Why is it not? What is the average power dissipated by this circuit? What would be the average power dissipated if there were no capacitor in the circuit? h) i)

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Z500o-jo.ooco 449 77,32 22783- 75 .500 o e) current through Awwth. 1: 2-19-0. 5000 ls unm The capacitat im Cufrent us out ot phase.with the a卜auty 2. fav = 0.000152 w IK.thene were mo, ahe htthon avenye me.γ dissi pate wodd beh) The voltage across the resistor is not in phase with the voltage of the source. because the capacitors also behaves like voltage sources. They'll counter-act against the main AC voltage source and will cause this behavior and current leads voltage by 90 degrees in a perfectly capacitive circuit and the voltage across the resistor is exactly in phase with the current. Since the resistor and capacitor are in series, the current through both is exactly the same.

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