Fall 2008 Physics 121 Practice Problem Solutions 13 Electromagnetic Oscillations AC Circuits Contents: 121P13 - 2P, 3P, 9P, 33P, 34P, 36P, 49P, 51P, 60P,

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Presentation transcript:

Fall 2008 Physics 121 Practice Problem Solutions 13 Electromagnetic Oscillations AC Circuits Contents: 121P13 - 2P, 3P, 9P, 33P, 34P, 36P, 49P, 51P, 60P, 62P Recap Mechanical Harmonic Oscillator Electrical – Mechanical Analogy LC Circuit Oscillations Damped Oscillations in an LCR Circuit AC Circuits, Phasors, Forced Oscillations Phase Relations for Current and Voltage in Simple Resistive, Capacitive, Inductive Circuits.

Fall 2008 PROBLEM 121P13-2P*: In an oscillating LC circuit, L = 1.10 mH and C = 4.00  F. The maximum charge on the capacitor is 3.00  C. Find the maximum current.

Fall 2008 PROBLEM 121P13-3P*: An oscillating LC circuit consists of a 75.0 mH inductor and a 3.60  F capacitor. If the maximum charge on the capacitor is 2.90  C, (a) what is the total energy in the circuit and (b) what is the maximum current?

Fall 2008 PROBLEM 121P13-9P: In an oscillating LC circuit with L = 50 mH and C = 4.0  F, the current is initially a maximum. How long will it take before the capacitor is fully charged for the first time?

Fall 2008 PROBLEM 121P13-33P: a) At what frequency would a 6.0 mH inductor and a 10  F capacitor have the same reactance? (b) What would the reactance be? (c) Show that this frequency would be the natural frequency of an oscillating circuit with the same L and C.

Fall 2008 PROBLEM 121P13-34P*: An ac generator has emf = m sin  d t, with m = 25.0 V and  d = 377 rad/s. It is connected to a 12.7 H inductor. (a) What is the maximum value of the current? (b) When the current is a maximum, what is the emf of the generator? (c) When the emf of the generator is V and increasing in magnitude, what is the current?

Fall 2008 PROBLEM 121P13-36P: The ac generator of Problem 34 is connected to a 4.15  F capacitor. (a) What is the maximum value of the current? (b) When the current is a maximum, what is the emf of the generator? (c) When the emf of the generator is V and increasing in magnitude, what is the current?

Fall 2008 PROBLEM 121P13-49P: What direct current will produce the same amount of thermal energy, in a particular resistor, as an alternating current that has a maximum value of 2.60 A?

Fall 2008 PROBLEM 121P13-51P: What is the maximum value of an ac voltage whose rms value is 100 V?

Fall 2008 PROBLEM 121P13-60P: A typical “light dimmer” used to dim the stage lights in a theater consists of a variable inductor L (whose inductance is adjustable between zero and L max ) connected in series with the lightbulb B as shown in the figure. The electrical supply is 120 V (rms) at 60.0 Hz; the lightbulb is rated as “120 V, 1000 W.” (a) What L max is required if the rate of energy dissipation in the lightbulb is to be varied by a factor of 5 from its upper limit of 1000 W? Assume that the resistance of the lightbulb is independent of its temperature. (b) Could one use a variable resistor (adjustable between zero and R max ) instead of an inductor? If so, what R max is required? Why isn't this done?

Fall 2008 PROBLEM 121P13-62P: A generator supplies 100 V to the primary coil of a transformer of 50 turns. If the secondary coil has 500 turns, what is the secondary voltage?