A bandwidth of 6 MHz is available for A.M. transmission. If the maximum audio signal frequency used for modulating the carrier wave is not to exceed 6 kHz. The number of stations that can be broadcasted within this band simultaneously without interfering with each other will be ________.

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Step 1: Understanding the Concept: In Amplitude Modulation (AM), the bandwidth occupied by a single station is twice the frequency of the modulating audio signal ($ 2 \times f_m $). Step 2: Key Formula or Approach: 1. Bandwidth per station = $ 2 \times f_m $. 2. Number of stations = $\frac{\text{Total Available Bandwidth}}{\text{Bandwidth per station}}$. Step 3: Detailed Explanation: Given: Total BW = 6 MHz = $ 6 \times 10^6 $ Hz. Max audio signal frequency $ f_m = 6 \text{ kHz} = 6 \times 10^3 $ Hz. BW required per station: $$ BW_{station} = 2 \times 6 \text{ kHz} = 12 \text{ kHz} = 12 \times 10^3 \text{ Hz} $$ Total number of stations: $$ N = \frac{6 \times 10^6}{12 \times 10^3} = \frac{6000}{12} = 500 $$ Step 4: Final Answer: The number of stations is 500.

List-I (Modulation Schemes)	List-II (Wave Expressions)
(A) Amplitude Modulation	(I) \( x(t) = A\cos(\omega_c t + k m(t)) \)
(B) Phase Modulation	(II) \( x(t) = A\cos(\omega_c t + k \int m(t)dt) \)
(C) Frequency Modulation	(III) \( x(t) = A + m(t)\cos(\omega_c t) \)
(D) DSB-SC Modulation	(IV) \( x(t) = m(t)\cos(\omega_c t) \)

A bandwidth of 6 MHz is available for A.M. transmission. If the maximum audio signal frequency used for modulating the carrier wave is not to exceed 6 kHz. The number of stations that can be broadcasted within this band simultaneously without interfering with each other will be ________.

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Correct Answer: 500

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