A resonance circuit having inductance and resistance 2 x 10-4 H and 6.28 2 respectively oscillates at 10 MHz frequency. The value of the quality factor of this resonator is____________ [= 3.14]
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![A resonance circuit having inductance and resistance 2 x 10-4 H and 6.28 2
respectively oscillates at 10 MHz frequency. The value of the quality factor of this
resonator is
______ [π = 3.14]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F401e9306-3e36-402c-9a7f-93a78f938dab%2F6f0ebf2c-56a2-440f-a52e-e46145399a6e%2F9xp69oe_processed.jpeg&w=3840&q=75)
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- In a purely inductive AC circuit as shown in the figure, AVmax = 100 V. AVmax sin wt (a) The maximum current is 6.00 A at 40.0 Hz. Calculate the inductance L. H (b) At what angular frequency w is the maximum current 3.50 A? rad/s ellProblem 9: Part (a) Express the inductive reactance, XL, in terms of L, and ω. XL = ______ Part (b) Calculate the numerical value of Imax in A. Imax = ______Problem 17: When a P = 730 W ideal (lossless) transformer is operated at full power with an rms input current of I1 = 3.4 A, it produces an rms output voltage of V2 = 8.4 V. Part (a) What is the input voltage, in volts? V1 = ______ Part (b) What is the output current, in amperes? I2 = ______ Part (c) Calculate the ratio of primary to secondary turns. N1/N2 = ______
- Please give a detailed solution Thank youIn a series circuit, R= 50 ohm, L= 4.0H and C = 12uF. When the source voltage operates at resonant frequency and current amplitude is 5.0 A . What is the voltage amplitude across the inductor?The current depends on frequency (ω). The circuit elements (inductor, resistor, capacitor) are fixed. If ℰ₀ = 136 volts, R = 6 Ω, L = 6 Henries, C = 1.324 Farads, calculate the frequency (ω) that gives the maximum current amplitude. (This is called the resonant frequency.)
- Problem 11: Part (a) Find its impedance Z at 55 Hz in Ω. Z = ______ Part (b) Find its impedance Z at 11 kHz in Ω. Z' = ______Problem 18: Part (a) Express the output rms voltage, ΔV2rms, in terms of N1, N2, and ΔV1rms. ΔV2rms = ______ Part (b) Calculate the numerical value of ΔV2rms in V. ΔV2rms = ______At what frequency (in Hz) will a 45.0 mH inductor have a reactance of 935 Ω?