Consider an optical communication system operating at `lambda=800 nm`. Suppose, only `1%` of the optical source frequency is the available channel bandwidth for optical communication. How many channels can be accommondated for transmitting audio signals requiring a bandwidth of `8kHz`

Consider an optical communication system operating at lambda ~ 800 nm . Suppose, only 1% of the optical source frequency is the available channel band-width for optical communication. Channels which can be accommodated for transmitting video TV signals requiring an approximate band-width of 4.5 MHz are

Consider an optical communication system operating at a wavelength of 800 mm and only 1 % of the optical source frequency is the available channel bandwidth for communication. How many channels (in multiple of 10 )-can be accommodated for transmitting audio signals requiring a bandwidth of 8kHz ?

In a communication system, operating at lamda=700nm, only 1% of the optical source frequency is the available channel band width. How many channels can be accommodated for transmitting the signal requiring an approximate band width of 4.5 MeV ?

An optical commnication system is operating at a wavelenght of 800nm , it's optical source frequency is

In optical communication system operating at 1200nm, only 2% of the source frequency is available for TV t ransmission having a bandwidth of 5 MHz. the number of TV channels that can be transmitted is

In optical communication system operating at 1200nm, only 2% of the source frequency is available for TV t ransmission having a bandwidth of 5 MHz. the number of TV channels that can be transmitted is