12. What is the function of a transducer in a communication system? a. Converts energy from one form to another b. Converts signals from low frequency to high frequency. c. Filters signals d. all of the above. 13. The power of a signal is 15W and the corresponding noise signal is 10mW. Compute its signal to Noise ratio (SNR). 14. A modulating signal of m(t) = 8 sin (2+6000t) is used to modulate a carrier signal c(t) = 10cos (2π x 10ºt). Determine a. The modulation index: μ b. Lower side band (LSB) and upper side band (USB) frequency; fLSB, fusB c. Band width of the signal (BW) d. Carrier signal Power (Pc) and the side band power (PUSB+PLSB) e. Efficiency of the Modulator

Please assist with question 14 c, d, and e with details on how to do it. Thank you.

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**Educational Content on Communication Systems** **Question 12:** What is the function of a transducer in a communication system? a. Converts energy from one form to another b. Converts signals from low frequency to high frequency c. Filters signals d. All of the above **Question 13:** The power of a signal is 15W and the corresponding noise signal is 10mW. Compute its Signal to Noise Ratio (SNR). **Question 14:** A modulating signal of \( m(t) = 8 \sin (2\pi6000t) \) is used to modulate a carrier signal \( c(t) = 10 \cos (2\pi \times 10^6 t) \). Determine: a. The modulation index: \( \mu \) b. Lower side band (LSB) and upper side band (USB) frequencies; \( f_{LSB}, f_{USB} \) c. Bandwidth of the signal (BW) d. Carrier signal Power (\( P_c \)) and side band power (\( P_{USB}+P_{LSB} \)) e. Efficiency of the Modulator *Note: This content provides an understanding of the basic concepts involved in transducers and signal modulation in communication systems.*