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7 June, 04:16

A television channel is assigned the frequency range from 54 MHz to 60 MHz. A series RLC tuning circuit in a TV receiver resonates in the middle of this frequency range. The circuit uses a 21 pF capacitor.

A. What is the value of the inductor? B. In order to function properly, the current throughout the frequency range must be at least 50% of the current at the resonance frequency. What is the minimum possible value of the circuit's resistance? Express your answers to two significant figures and include the appropriate units.

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  1. 7 June, 06:29
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    A.) L = 0.37 μH B) 7.61 Ω

    Explanation:

    A) At resonance, the circuit behaves like it were purely resistive, so the reactance value must be 0.

    So, the following condition must be met:

    ω₀*L = 1 / (ω₀*C) ⇒ ω₀² = 1/LC

    We know that, for a sinusoidal source, there exists a fixed relationship between the angular frequency ω₀ and the frequency f₀, as follows:

    ω₀ = 2*π*f₀

    ⇒ (2*π*f₀) ² = 1 / (L*C)

    Replacing by the givens (f₀, C), we can solve for L:

    L = 1 / ((2*π*f₀) ²*C) = 1 / (2*π*57*10⁶) ² Hz²*21*10⁻¹² f = 0.37 μH

    b) At resonance, the current can be expressed as follows:

    I₀ = V/Z = V/R

    We need to find the minimum value of R that satisfies the following equation:

    I = 0.5 I₀ = 0.5 V/R = V/Z

    ⇒ 0.5/R = 1/√ (R²+X²)

    Squaring both sides, we have:

    (0.5) ²/R² = 1 / (R²+X²)

    ⇒ 0.25 (R²+X²) = R² ⇒ R² = X² / 3

    We need to find the value of R that satisfies the requested condition througout the frequency range.

    So, we need to find out the value of the reactance X in the lowest and highest frequency, as follows:

    Xlow = ωlow * L - 1 / (ωlow*C)

    ⇒ Xlow = ((2*π*54*10⁶) * 0.37*10⁻⁶) - 1 / ((2*π*54*10⁶) * 21*10⁻¹²) = - 14.81Ω

    Xhi = ωhi * L - 1 / (ωhi*C)

    ⇒ Xhi = ((2*π*60*10⁶) * 0.37*10⁻⁶) - 1 / ((2*π*60*10⁶) * 21*10⁻¹²) = 13.18Ω

    For these reactance values, we can find the corresponding values of R as follows:

    Rlow² = Xlow²/3 = (-14.81) ²/3 = 75Ω² ⇒ Rlow = 8.55 Ω

    Rhi² = Xhi² / 3 = (13.18) ²/3 = 56.33Ω² ⇒Rhi = 7.61 Ω

    The minimum value of R that satisfies the requested condition is R = 7.61ΩΩ.
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