![SOLVED: Calculate the theoretical highest bit rate of a regular telephone line. The signal-to-noise ratio is usually 3162. a. 34.860 kbps b. 17.40 kbps c. 11.62 kbps d. none of the Mentioned SOLVED: Calculate the theoretical highest bit rate of a regular telephone line. The signal-to-noise ratio is usually 3162. a. 34.860 kbps b. 17.40 kbps c. 11.62 kbps d. none of the Mentioned](https://cdn.numerade.com/project-universal/previews/f09fa3fd-21d6-43f8-a294-fc6677e5e1d6.gif)
SOLVED: Calculate the theoretical highest bit rate of a regular telephone line. The signal-to-noise ratio is usually 3162. a. 34.860 kbps b. 17.40 kbps c. 11.62 kbps d. none of the Mentioned
![SOLVED: Calculate the Channel capacity (C) of a noisy channel in kbps if its Bandwidth is 4 kHz and if its SNR is 35 dB. (2 marks) (Answer in separate sheet scan SOLVED: Calculate the Channel capacity (C) of a noisy channel in kbps if its Bandwidth is 4 kHz and if its SNR is 35 dB. (2 marks) (Answer in separate sheet scan](https://cdn.numerade.com/ask_images/5233d614b49744d3b34555db2d0629de.jpg)
SOLVED: Calculate the Channel capacity (C) of a noisy channel in kbps if its Bandwidth is 4 kHz and if its SNR is 35 dB. (2 marks) (Answer in separate sheet scan
![SOLVED: A noisy channel needs to transfer 64 kbps, but has a SNR of 15 (Signal power / noise power). Calculate the minimum Bandwidth required , in kHz, according to Shannon. Watch the units! SOLVED: A noisy channel needs to transfer 64 kbps, but has a SNR of 15 (Signal power / noise power). Calculate the minimum Bandwidth required , in kHz, according to Shannon. Watch the units!](https://cdn.numerade.com/project-universal/previews/4118ad39-df1e-455b-b5af-3895cc075a7f.gif)