Using the half‑wavelength length formula, what is the approximate length in feet for a frequency of 10 MHz?

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Master the AN/PRC-160 and AN/PRC-163 Radio Operations Test. Utilize flashcards and multiple choice questions, each with hints and explanations. Ace your exam!

Multiple Choice

Using the half‑wavelength length formula, what is the approximate length in feet for a frequency of 10 MHz?

Explanation:
Half-wavelength length is determined by λ/2, where λ = c/f. Using the speed of light c ≈ 3.00×10^8 m/s and a frequency f = 10 MHz (10×10^6 Hz), the wavelength is λ ≈ 30.0 meters, so the half-wavelength is about 15.0 meters. Converting to feet: 15.0 m × 3.28084 ≈ 49.2 feet. The option 46.8 feet is the value closest to this commonly used approximation (the small difference comes from rounding constants that may be used in different quick-calculation rules). A handy quick rule is L_half ≈ 492 / f(MHz) feet, which gives 49.2 feet at 10 MHz.

Half-wavelength length is determined by λ/2, where λ = c/f. Using the speed of light c ≈ 3.00×10^8 m/s and a frequency f = 10 MHz (10×10^6 Hz), the wavelength is λ ≈ 30.0 meters, so the half-wavelength is about 15.0 meters. Converting to feet: 15.0 m × 3.28084 ≈ 49.2 feet. The option 46.8 feet is the value closest to this commonly used approximation (the small difference comes from rounding constants that may be used in different quick-calculation rules). A handy quick rule is L_half ≈ 492 / f(MHz) feet, which gives 49.2 feet at 10 MHz.

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