correct answer is 3.2 ohms
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In an oscillating RLC circuit with L = 70 mH, C = 7.5 µF, and R = 4.0 Ω, how much time (in ms) elapses before the amplitude of the oscillations drops to half its initial value?
In an oscillating RLC circuit with L = 50 mH, C = 9.5 UF, and R = 6.0 2, how much time (in ms) elapses before the amplitude of the oscillations drops to half its initial value? ms
Will like for answer! 32. + -/1 points OSUniPhys1 31.6.P.071. In an oscillating RLC circuit with L = 60 mH, C = 8.5 uF, and R = 9.0 , how much time (in ms) elapses before the amplitude of the oscillations drops to half its initial value? ms Additional Materials eBook
In an oscillating RLC circuit, R = 3.8 , L = 7.0 mh, and C = 700 pF. What is the angular frequency of the oscillations in rad/s)? 451 x rad/s
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In an oscillating RLC circuit, R = 3.9 Ω, L = 6.0 mH, and C = 600 µF. What is the angular frequency of the oscillations (in rad/s)? ___________________________ rad/s
Book 2. 0/1 points Previous Answers OsUniPhys1 31.6.P.071. In an oscillating RLC drcuit with L - 20 mH, C-9.5 pF, and R-3.00, how much time (in ms) elapses before the amplitude of the oscillations drops to half its initial value? 0.229 Xms Additional Materials eBook 3. -/1 points osUniPhys1 31.6.P.072.
Consider the RLC circuit below, with R= 20 12, L = 10 mH, and C = 5 mF. The voltage source has a voltage amplitude of 26.0 V and an angular frequency of w = 500 rad/s. a) What is the total impedance of the circuit? b) Find the amplitude of the current, and the phase angle, d. c) Draw a phasor diagram of the impedances. Be sure to clearly label Z, R, XL, Xc, and 0. R C E
In an oscillating RLC circuit, R = 2.11, L = 3.0 mb, and C = 300 uF. What is the angular frequency of the oscillations (in rad/s)? 1054.0 rad/s
(a) In an RLC circuit, can the amplitude of the volt- age across an inductor be greater than the amplitude of the generator emf? (b) Consider an RLC circuit with emf amplitude =15.6 V, resistance R=10 ohms, inductance L=1.0 H, and capacitance C=1.0 mF. Find the amplitude of the voltage across the inductor in volts. (5 sig fig)