Question

In: Electrical Engineering

For the circuit 10 Vp AC with R=10 Ω, and L=8.2 mH (in series) compute XL...

For the circuit 10 Vp AC with R=10 Ω, and L=8.2 mH (in series) compute XL Z, iRMS, VR, VL for different frequencies ranging from f=20 Hz to f=100 Hz at 20 Hz intervals, and from then onwards, discrete values f= 200, 500, 1000, 2000 and 5000 Hz. Plot frequency (x-axis, logarithmic) vs. and frequency (x-axis, logarithmic). What happens to the circuit as frequency increases (which component is taking over?).

Solutions

Expert Solution


Related Solutions

An RLC circuit with R = 23.8 Ω , L = 327 mH , and C...
An RLC circuit with R = 23.8 Ω , L = 327 mH , and C = 45.7 μF is connected to an ac generator with an rms voltage of 25 V A: Determine the average power delivered to this circuit when the frequency of the generator is equal to the resonance frequency. B: Determine the average power delivered to this circuit when the frequency of the generator is twice the resonance frequency C: Determine the average power delivered to...
A series ac circuit contains a 210 Ω resistor, a 20.0 mH inductor, a 3.30 μF...
A series ac circuit contains a 210 Ω resistor, a 20.0 mH inductor, a 3.30 μF capacitor, and an ac power source of voltage amplitude 45.0 V operating at an angular frequency of 360 rad/s . 1)What is the power factor of this circuit? 2)Find the average power delivered to the entire circuit. 3)What is the average power delivered to the resistor, to the capacitor, and to the inductor?
In the R-L circuit below, a resistor R (8.0 Ω) is connected in series to an...
In the R-L circuit below, a resistor R (8.0 Ω) is connected in series to an inductor L (24.0 mH) and a battery ε (12.0 V). When the circuit is closed, current grows with time. (a) What is the time constant of the circuit? (b) What is the current in the circuit at one time constant? (c) What is the maximum magnetic energy in the circuit? (d) At what time after closing the switch will the magnetic energy be 50%...
A resistor of R = 10 Ω is connected in series with an inductor of L...
A resistor of R = 10 Ω is connected in series with an inductor of L = 2 H and a direct voltage source of 50 V forming an RL circuit. Determine the current at time t, assuming that current does not initially flow through the circuit. What is the maximum current flowing through the circuit? In what time is half the maximum current reached?
An L-R-C series circuit consists of a 2.40 μF capacitor, a 6.00 mH inductor, and a...
An L-R-C series circuit consists of a 2.40 μF capacitor, a 6.00 mH inductor, and a 60.0 Ω resistor connected across an ac source of voltage amplitude 10.0 V having variable frequency. Part A: At what frequency is the average power delivered to the circuit equal to 1/2*V_rms*I_rms? (ω = ____rad/s) Part B: Under the conditions of part (a), what is the average power delivered to each circuit element? (P_R, P_C, P_L = ____W) Part C: What is the maximum...
In an RL series circuit with L = 1/100 H, R = 20 Ω, and E...
In an RL series circuit with L = 1/100 H, R = 20 Ω, and E = 60 V. Determine the limit of the maximum current reached (At the function you found to determine the current as a function of time apply the limit when t goes to infinity) and determine the time in which it reaches half of that value. Take i (0) = 0 A.
In a series oscillating RLC circuit, R = 16.4 Ω, C = 30.9 μF, L =...
In a series oscillating RLC circuit, R = 16.4 Ω, C = 30.9 μF, L = 8.80 mH, and E = Emsinωdt with Em = 44.8 V and ωd = 2900 rad/s. For time t = 0.434 ms find (a) the rate Pg at which energy is being supplied by the generator, (b) the rate PC at which the energy in the capacitor is changing, (c) the rate PL at which the energy in the inductor is changing, and (d)...
A series AC circuit contains a resistor, an inductor of 240 mH, a capacitor of 5.40...
A series AC circuit contains a resistor, an inductor of 240 mH, a capacitor of 5.40 µF, and a source with ΔVmax = 240 V operating at 50.0 Hz. The maximum current in the circuit is 170 mA. (a) Calculate the inductive reactance. _________________Ω (b) Calculate the capacitive reactance. ______________-Ω (c) Calculate the impedance. _______________kΩ (d) Calculate the resistance in the circuit. ______________kΩ (e) Calculate the phase angle between the current and the source voltage. _______________°
An ac circuit has a resistance of 40 Ω connected in series to an inductor of...
An ac circuit has a resistance of 40 Ω connected in series to an inductor of inductive reactance equal to 30 Ω at a frequency of 50 Hz. Find the inductance of the inductor.
In a series oscillating RLC circuit, R =16.0 W, C =5.0 mF, L =20.0 mH, and...
In a series oscillating RLC circuit, R =16.0 W, C =5.0 mF, L =20.0 mH, and e=emsin (wt) with em =45.0 V and frequency of oscillation is 50 Hz. For time t= 0.4 s find (a) the rate PCat which the energy in the capacitor is changing, and (b) the rate PRat which energy is being dissipated in the resistor.
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT