Chapter 31, Problem 057 In an RLC circuit such as that of the figure asssume that...
In an RLC circuit such as that of the figure assume that R = 5.12 Ω, L = 70.3 mH, fd = 87.7 Hz, and εm = 38.2 V. For what values of the capacitance would the average rate at which energy is dissipated in the resistance be (a) a maximum and (b) a minimum? What are (c) the maximum dissipation rate and the corresponding (d) phase angle and (e)power factor? What are (f) the minimum dissipation rate and the...
In an RLC circuit such as that of the figure assume that R =
3.99 Ω, L = 77.8 mH, fd = 79.4 Hz, and εm = 31.2 V. For what values
of the capacitance would the average rate at which energy is
dissipated in the resistance be (a) a maximum and (b) a minimum?
What are (c) the maximum dissipation rate and the corresponding (d)
phase angle and (e) power factor? What are (f) the minimum
dissipation rate and...
Use the information below to answer the next two questions about RLC series circuit. A RLC series circuit has R=5.000, L = 0.0150H and C = 330x10 F. This circuit is connected to an AC source with Vrms = 120V and f = 60.0Hz. What is the power factor of the RLC series circuit? Answer: What is the phase angle of the RLC series circuit? Answer: What is the average power dissipated by the RLC series circuit? Answer: x103w What...
Chapter 31, Problem 047 An RLC circuit such as that of Figure (a) has R = 5.62 2, C = 25.2 F, L = 1.47 H, and Em = 38.0 V. (a) At what angular frequency we will the current amplitude have its maximum value, as in the resonance curves of Figure (b)? (b) What is this maximum value? At what (c) lower angular frequency wd1 and (d) higher angular frequency w d2 will the current amplitude be half this...
In a series RLC ac circuit, the resistance is 16.7 ?, the inductance is 27.6 mH, and the capacitance is 22.2 ?F. The maximum po- tential is 217 V, and the angular frequency is 636.62 rad/s. Calculate the maximum current in the cir- cuit. Answer in units of A. 015 (part 2 of 2) 10.0 points What is the power factor for the circuit?
An RLC series circuit has a 198 Ω resistor and a 25.0 mH inductor. At 8200 Hz, the phase angle is 45.0°. (a) What is the impedance? Ω (b) Find the minimum possible capacitance of the circuit. nF (c) If Vrms = 408 V is applied, what is the average power supplied? W
The RLC circuit below is being driven by an AC source with a
frequency of 47.77 Hz resulting in a maximum current Imax = 0.25
amps.
24) In this circuit, the voltage
across the capacitor __________ the current through the capacitor
and the voltage across the resistor __________ the current through
the resistor.
leads, lags
leads, leads
lags, leads
lags, lags
lags, is in phase with
is in phase with, leads
Totally unrelated question....
25) A local radio station broadcasts
at the...
A series RLC circuit has a 242 Hz resonant frequency, and is
driven by an AC voltage source at 315 Hz. The circuit has a 75.0
resistor and a
66.0 mH inductor. The maximum current is 1.20 A.
a) Find the capacitance in the circuit.
b) Find the maximum voltage of the source.
c) Find the average power of the circuit
d) Find the phase angle .
Use the worked example above to help you solve this problem. A series RLC AC circuit has resistance R = 2.60 x 10-Q, inductance L-0.700 H, capacitance C-3.50 μF, frequency f-60.0 Hz, and maximum voltage ΔⅤmax = 2.00 x 102 V (a) Find the impedance (b) Find the maximum current in the circuit. (c) Find the phase angle (d) Find the maximum voltages across the elements R, max L, max C, max Δν EXERCISE HINTS: GETTING STARTED L I'M STUCK!...
An RLC series circuit has a 190 Ω resistor and a 25.0 mH inductor. At 7900 Hz, the phase angle is 45.0°. (a) What is the impedance (in ohms)? Ω (b) Find the minimum possible capacitance (in nanofarads) of the circuit. nF (c) If Vrms = 408 V is applied, what is the average power (in watts) supplied? W