A ground receiver station is receiving a signal at 500 MHz transmitted from a ground transmitter at a height of 300 m located at a distance of 500 km. It is coming via

A ground receiving station is receiving a signal at 6MHz transmitted from a ground transmitter at a height of 500m located at a distance of 100km. If radius of earth is 6.4xx10^(6) m, maxim um number density of electron in ionosphere is 10^(12)m^(-3) . the signal is coming via:

A ground receiver station is receiving a signal at (a) 5 MHz and 100 MHz , transmitted from a ground transmitter at a height of 400 m located at a distance of 125 km . Identify whether it is coming via space wave or sky wave propagation or statellite transponder. Radius of earth = 6.4 xx 10^(6) m , maximum number density of electrons in ionsphere = 10^(12) m^(-3) .

A ground receiver station is receiving a signal at 8 MHz , transmitted from ground transmitter at a hight of 289 m located at a distance of 100 km. Identify whether it is coming via space wave or sky wave propagation or satellite transponder. Radius of earth = 6.4 xx 10^6m . Maximum number density of electrons in ionosphere = 10^(12)m^(-3) .

A ground receiver station is receiving a signal at (a) 5 MHz and (b) 100MHz.transmitted from a ground transmitter at a height of 400 m located at a distance of 125 km on whether coming via space wave of sky wave propagation or satellite transponder Radius of earth= 6.4 xx10^(6) m, maximum number density of electrons in lonosphere = 10^(12) m^(-3)

A ground receiver station is receiving a signal at (a) 6.0 MHz and (b) 110 MHz, transmitted from ground transmitter at a hight of 300 m located at a distance of 100 km. Identify whether it is coming via space wave or sky wave propagation or satellite transponder. Radius of earth = 6.4 xx 10^6m , maximum number density of electrons in ionosphere = 10^(12)m^(-3) .

A ground reciver is receiving a signal at (a) 5 MHz, and (b) 100 MHz, transmitted from a ground transmitter at a height of 300 m located at a distance of 100 km, Identify whether it is coming via space wave or sky wave propagation or satellite transponder. [Radius of earth ~~ 6.4 xx 10^(6) m , N_(max) of ionosphere = 10^(12) m^(3) ]

Perhaps, the most commonly used mode of communication involves use of free space as a communication channel between transmitter and receiver. The various possible modes of using of free space have been described below Ground wave communication : This mode is used for low frequency as at high frequency, losses become large. This is useful for distance of the order of 1 km. Space wave communication: The signals are transmitted directly from transmitter to receiver. There is no limit to upper frequency, but its range is limited to few hundred kilometers. The range depends on the height of transmitting antenna Sky wave communication : The signals are sent towards sky They are reflected back towards earth by ionosphere. Its range can be above 500 km. But, very high frequencies (above 10 MHz) are not reflected back. Satellite communication: The signals that cannot be reflected back by ionosphere are reflected back by satellite. Moon is a passive satellite of earth. A receiver receives a signal of frequency 108 MHz from a transmitter 300 km away. It must be coming via

At certain distance from a transmitting tower a receiver tower of height 180m is used to receive direct signal. Another tower is installed beyond the first along the same line of sight to receive the signals from the same transmitter. Its height is 21% more than the first receiving tower. Then the separation between the two receiving towers is

A certain distance from a transmitting tower a receiver tower of height 20 m is used to receive direct signal. Another tower is installed beyond the first along the same line of sight to receive the signals from the same transmitter. Its height is 44% more than the first receiving tower. Then the separation between the two receiving towers is