A series RCL circuit includes a resistance of 225, an inductive reactance of 572, and a capacitive reactance of 469. The current in the circuit is 0.295 A. What is the voltage of the generator? Note: The ac current and voltage are rms values and power is an average value unless indicated otherwise.
I got 81.12982713 V but for some reason it keeps saying I am wrong.
A series RCL circuit includes a resistance of 225, an inductive reactance of 572, and a...
A series RCL circuit includes a resistance of 237, an inductive reactance of 513, and a capacitive reactance of 439. The current in the circuit is 0.207 A. What is the voltage of the generator? Note: The ac current and voltage are rms values and power is an average value unless indicated otherwise.
A series RCL circuit has a resonant frequency of 2200 Hz. When operating at a frequency other than 2200 Hz, the circuit has a capacitive reactance of 5.70 and an inductive reactance of 25.0. What are the values of (a) L and (b) C? Note: The ac current and voltage are rms values and power is an average value unless indicated otherwise.
An AC series circuit has 18.9-Ω resistance, 21.1-Ω inductive reactance, and 15.5-Ω capacitive reactance. If an effective (rms) emf of 94 V is applied, what is the power output?
An AC series circuit has 12.0 Ω resistance, 15.00 Ω inductive reactance and 10.00 Ω capacitive reactance. If an effective (rms) emf of 144 V is applied, what is the power dissipated by the resistor? A. 1728 W B. 1472 W C. 1595 W D. 1020 W
A series RLC circuit has resistance R = 16.09, inductive reactance X, = 28.0 , and capacitive reactance X = 15.0 . If the maximum voltage across the resistor is AV, = 155 V, find the maximum voltage across the inductor and the capacitor. (Due to the nature of this problem, do not use rounded intermediate values in your calculations-including answers submitted in WebAssign.) HINT (a) the maximum voltage across the inductor (in V) (b) the maximum voltage across the...
A series RC circuit has resistance R - 14.00 inductive reactance X20:00, and capacitive reactance X 12. 00. If the maximum voltage across the resistor is av = 125 V, find the maximum voltage across the inductor and the capacitor. (Due to the nature of this problem, do not use rounded intermediate values in your calculations including answers submitted in Webassin) HINT (a) the maximum voltage across the inductor (in V) (b) the maximum voltage across the capacitor ( V)...
A generator connected to an RLC circuit has an rms voltage of 160 V and an rms current of 39 mA. if the resistance in the circuit is 3.1 kΩ and the capacitive reactance is 6.7 kΩ What is the inductive reactance of the circuit? A generator connected to an RLC circut has an voltage of 160 V and an is current of 30 mA. Part A If the resistance in the court is 31 and the capacitive reactance is...
I need help for (e),(f), and (g) R 00000 с (a) If an RCL series circuit contains a resistance R = 349 2. a capacitance C = 4.4 uF, and an inductance of L = 0.24 H, calculate the inductive reactance X{ if the circuit is connected to a voltage source whose frequency is 449 Hz. Ω | Help Reset Enter X1. = 677.0760487 677.0760487 OK (6) Calculate the capacitive reactance XC for the same conditions in part A. 2...
just need to knownwhat letter it is & Consider an RCL series circuit connected to an AC power supply. If the driving frequency is decreased, a) the resistance will necessarily increase b) the impedance will necessarily decrease d c) the impedance will necessarily increase d) the capacitive reactance will necessarily increase e) the inductive reactance will necessarily increase
A series RLC circuit has resistance R = 10.0 Ω, inductive reactance XL = 34.0 Ω, and capacitive reactance XC = 21.0 Ω. If the maximum voltage across the resistor is ΔVR = 165 V, find the maximum voltage across the inductor and the capacitor. (Due to the nature of this problem, do not use rounded intermediate values in your calculations—including answers submitted in WebAssign.) (a) the maximum voltage across the inductor (in V) V (b) the maximum voltage across...