Capacitive Reactance,Xc = 1/2πfc Inductive Reactance,XL = 2πfL Why there is no reactance in DC?

What is the relationship between capacitive reactance and frequency? What is the relationship between capacitive reactance...

What is the relationship between capacitive reactance and frequency? What is the relationship between capacitive reactance and capacitance? What is the relationship between inductive reactance and frequency? What is the relationship between inductive reactance and inductance?

a) At what frequency will the Inductive Reactance of 44. mH be equal to the capacitive...

a) At what frequency will the Inductive Reactance of 44. mH be equal to the capacitive reactance of a 27.0 pF capacitor? b) A 120.0 mH inductor is in series with a 20.0 Ω resistor in a 120.0V, 60.0 Hz circuit. What is the impedance of the circuit?

1. For a particular RLC series circuit, the capacitive reactance is 4.65 Ω, the inductive reactance...

1. For a particular RLC series circuit, the capacitive reactance is 4.65 Ω, the inductive reactance is 23.5 Ω, and the maximum voltage across the 84.9 Ω resistor is 34.9 V. What is the maximum voltage across the circuit? please answer both exercise not only one this is 2 essential questions 2. Consider a series RLC circuit where the resistance ?=447 Ω , the capacitance ?=3.25 μF , and the inductance ?=85.0 mH . What is the maximum current ?max  when...

Consider a driven RLC series AC circuit. At frequency f1 the capacitive reactance is twice the...

Consider a driven RLC series AC circuit. At frequency f1 the capacitive reactance is twice the inductive reactance. Determine frequency f2 as a function of f1 so that the inductive reactance is twice the capacitive reactance. Select one: a. f2=f1/sqrt(2) b. f2= sqrt(2)f1 c. f2= 2f1 d. f2=f1/2

1. A circuit has a 400 resistance in one branch, a 50 inductive reactance in the...

1. A circuit has a 400 resistance in one branch, a 50 inductive reactance in the second and 40 capacitive reactance in the third. It is fed from a 240 V, 50 Hz supply. Find (a) Current in all branches (b) Total current (c) Circuit impedance (d) Circuit admittance (e) Power factor (f) Apparent power (g) Active power (h) Reactive power (i) Parameters of equivalent series circuit

The RLC series circuit illustrated in the simulation has R = 1.49 Ω, L = 1.25...

The RLC series circuit illustrated in the simulation has R = 1.49 Ω, L = 1.25 H, and C = 198 µF. The applied AC voltage has a frequency of f = 60 Hz and a voltage of Δv = 120 V. 1-Find the inductive reactance, capacitive reactance, and impedance. XL = ........ Ω XC = ........ Ω Z = ......... Ω 2-Find the phase difference between current and voltage............. ° 3-Find the voltages ΔvR, ΔvL, and ΔvC. ΔvR =...

If the maximum voltage coming from the AC source is 25V, and is hooked up to...

If the maximum voltage coming from the AC source is 25V, and is hooked up to a LRC series circuit where R=444 Ω, L=0.333 mH and C=222pF find the following a. Resonant Frequency For the following find them at the resonant frequency. b. Inductive reactance, XL, Capacitive reactance XC, and the impedance Z c. I R M S d. V R M S across the resistor, the inductor and capacitor.

In a series circuit, suppose R=230Ω, L=370mH, C=0.75μF, V=85V, and ω=4500rad/s. Find the reactance XL. Find...

In a series circuit, suppose R=230Ω, L=370mH, C=0.75μF, V=85V, and ω=4500rad/s. Find the reactance XL. Find the reactance XC. Find the impedance Z. Find the current amplitude I. Find the phase angle ϕ. Find the voltage amplitude across the resistor. Find the voltage amplitude across the inductor. Find the voltage amplitude across the capacitor.

Now Tiva and Graciela try a problem from the book. The RLC series circuit illustrated in...

Now Tiva and Graciela try a problem from the book. The RLC series circuit illustrated in the simulation has R = 1.2 Ω, L = 1.02 H, and C = 183 µF. The applied AC voltage has a frequency of f = 60 Hz and a voltage of Δv = 120 V. Find the inductive reactance, capacitive reactance, and impedance. XL =____ Ω XC =____ Ω Z =____ Ω Find the phase difference between current and voltage. ° Find the...

Illustrate the use of (a) capacitive and (b) inductive sensors in a circuit where they are...

Illustrate the use of (a) capacitive and (b) inductive sensors in a circuit where they are used to detect forward and return stroke limits for a double acting cylinder.