An inductor is connected to a 120-V, 60-Hz supply. The current in the circuit is 2.4 A. What is the inductive reactance?

Here we calculated value of inductive reactance. Here we assumed that given current is Root mean square value.
An inductor is connected to a 120-V, 60-Hz supply. The current in the circuit is 2.4...
A series R-L circuit is connected to a 120 V, 60 Hz source. The circuit consists of a 2 Ω resistor and an inductor. The current is lagging the voltage by 52.8°. a. Calculate the reactance, XL. b. Calculate the value of the inductor L, in henries. c. Calculate the impedance, ZT. d. Calculate the current.
What is the inductive reactance of a 2 mH inductor at a frequency of 1000 Hz? A. 68.3 Ω B. 12.56 Ω C. 204.4 Ω D. 20.25 Ω What is the inductive reactance of a 2 H inductor in a 60 Hz, AC circuit? A. 0.08 Ω B. 753.60 Ω C. 948 Ω D. 120 Ω A circuit contains a 60 mH and a 40 mH inductor connected in parallel. The circuit has a source voltage of 100 VAC and...
#1: A high-voltage AC power supply (Emax = 311 V) is connected to an inductor. A maximum current of 1.79 A is measured in the circuit, with the current peaking 2.08 ms after the voltage reaches its maximum value. a) Find the inductive reactance of the circuit. b) Find the frequency of the power supply. c) Find the inductance of the inductor.
A 130 V (rms), 62 Hz power supply is connected to an RLC series circuit with R = 145 Ω , L = 1.35 mH , and C = 31.0 μF . Part A: Find the reactance of the capacitor Part B: Find the reactance of the inductor Part C: Find the circuit impedance Part D: Find the peak current
When an inductor is connected to a 60.0 Hz source it has an inductive reactance of 56.8 Ω. Determine the maximum current in the inductor (in A) if it is connected to a 45.0 Hz source that produces a 120 V rms voltage
When an inductor is connected to a 60.0 Hz source it has an inductive reactance of 54.6 Ω. Determine the maximum current in the inductor (in A) if it is connected to a 45.0 Hz source that produces a 105 V rms voltage.
Consider a circuit with an ideal 60 Hz generator with peak voltage of 120 V connected to a 2 H inductor and a 2 F capacitor connected in series, (a) Using Kirchoff's laws, find the equation for the voltage drop along the circuit, i.e., you should find the sums of the voltage (drops) are equal to zero. But you don't need to solve it. (b) What is the resonant frequency of this circuit?
In the circuit shown in the figure, the 60-Hz ac source has a rms voltage amplitude of 120 V, the capacitive reactance is 600 2 the inductive reactance is 150 2 and the resistance is 450 12 a) What is the inductance Lof the inductor? (2 pts) b) What is the capacitance C of the capacitor? (2 pts) c) What is the impedance of the circuit? (1 pts) 60 Hz R
A 380 Hz sinusoidal voltage with a maximum amplitude of 120 V at t = 0 is applied across the terminals of an inductor. The maximum amplitude of the steady-state current in the inductor is 20 A. Part A What is the frequency of the inductor current? Part B If the phase angle of the voltage is zero, what is the phase angle of the current? Part C What is the inductive reactance of the inductor? Part D What is the inductance of the inductor? Part E What is the...
Question 16 1 pts A 50-2 resistor, a 0.1-H inductor, and a 10-uF capacitor are connected in series to a 60-Hz source. The rms current in the circuit is 3 A. Find the rms voltage across the resistor, the inductor, and the capacitor. O 60 V, 80 V,796 V (all rms) O 150 V, 113V,562 V (allrms) O 150 V, 113 V, 796 V (all rms) O 0.06 V, 80 V,562 V (all rms) 1 pts Question 17 In an...