Explanation Given data: R is 24 Ω . L is 58 μ H . f 0 is 320 kHz Formula used: Consider the expression for peak current at any frequency ( I ) . I = ε 0 R 2 + ( X L − X C ) 2 (1) Here, ε 0 is the initial voltage, R is the resistance, X L is the inductive reactance, and X C is the capacitive reactance. Consider the expression for resonance frequency ( f 0 ) . f 0 = 1 2 π L C (2) Here, C is the capacitance, and L is the inductance. Consider the expression for capacitive reactance ( X C ) . X C = 1 2 π f C Here, f is the frequency. Consider the expression for inductive reactance ( X L ) . X L = 2 π f L Explanation: Rearrange equation (2) to find capacitance. C = ( 1 2 π f 0 ) 2 L Substitute 320 kHz for f 0 and 58 μ H for L , C = [ 1 2 π ( 320 kHz ) ] 2 58 μ H = [ 1 2 π ( 320 × 10 3 Hz ) ] 2 58 × 10 − 6 H = ( 1 2.010 × 10 6 Hz ) 2 58 × 10 − 6 H = 2.475 × 10 − 13 58 × 10 − 6 F C = 4.267 × 10 − 9 F At resonance condition, the inductive reactance is equal to the capacitive reactance ( X L = X C ) . Modify equation (1) as follows. I = ε 0 R 2 + ( X L − X C ) 2 = ε 0 R 2 = ε 0 R Since the current in the circuit is one-half its value at resonance, then modify the equation as follows. I = ε 0 2 R Substitute ε 0 2 R for I in equation (1), ε 0 2 R = ε 0 R 2 + ( X L − X C ) 2 1 2 R = 1 R 2 + ( X L − X C ) 2 R 2 + ( X L − X C ) 2 = 2 R X L − X C = ( 2 R ) 2 − R 2 Simplify the equation

4th Edition

ISBN: 9780134779218

Author: Knight

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Chapter 26, Problem 54P

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The value of frequency.

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Chapter 26, Problem 53P

Chapter 26, Problem 55GP

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