If the sum of the heights of transmitting and receiving antennas in line of sight of communication is fixed at h, show that the range is maximum when the two antennas have a height `h//2` each.

If the sum of the heights of transmitting and receiving antennae in line of sight of communication is fixed at h , the range is maximum when the two antennae have a height

The sum of the heights of transmitting and receiving antenae in the sight of communication is h. Prove that the range is maximum if the two antennae have a height of h/2 each.

The sum of the heights of transmitting and receiving attennas in line of sight of communication is fixed at h, find the height of two antennas when r ange is maximum.

The sum of the heights of transmitting and receiving attennas in line of sight of communication is fixed at h, find the height of two antennas when r ange is maximum.

If the sum of the heights of transmitting and receiving antennas in the line of sight of communication is fixed at 160 m, then the maximum range of LOS communication is_________km. (Take radius of Earth = 6400 km)

Sum of height of transmission and carrier antenna is 160 m. Calculate maximum range.

If the heights of transmitting and the receiving antennas are each equal to h, the maximum line-of-sight distance between them is (R is the radius of earth)

Heights of transmitting and receiving antennas from earth surface are h_(T) and h_(R) respectively. Write the relation for maximum line-of-sight (LOS) distance two antennas.