47 C.F.R. § 80.767
The propagation graph, § 80.767 Graph 1, must be used in computing the service area contour. The graph provides data for field strengths in dBu for an effective radiated power of 1 kW, over sea water, fresh water or land (smooth earth); transmitting antena heights of 4,800, 3,200, 1,600, 800, 400, 200, and 100 feet; based on a receiving antenna height of 9 meters (30 feet), for the 156-162 MHz band. The use of this is described in this section.
(a) Calculate the effective radiated power of the coast station, Ps in dB referred to 1 kW (dBk), as follows:

where, Pt = Transmitter output power in dB referred to 1 kW: Transmitter output power in watts is converted to dBk by Pt = 10 [log10 (Power in watts)]−30. Also see § 80.761 Graph 1 for a conversion graph. G = Antenna gain in dB referred to a standard half-wave dipole, in the direction of each plotted radial, and L = Line losses between the transmitter and the antenna, in dB.
(d) Assume that propagation over fresh water or over land is the same as that over sea water.

Notes: 1. To determine field strengths where the distance is known, for effective radiated powers other than 1kW (0 dBk): Enter the graph from the “statute miles” scale at the known distance, read up to intersection with the curve for the antenna height, read left to the “dBu for 1 kW radiated” scale and note the referenced field strength (Fe). The value of the actual field strength (F) in dBu will be F = Fe + Ps where Ps is the effective radiated power calculated above. 2. To determine distance, where the actual field strength is specified, for effective radiated powers other than 0 dBk: The value of the field referenced strength will be Fe = F−Ps in dBu. Enter the graph, from the “dBu for 1 kW radiated” scale at the corrected value of Fe, read right to intersection with the antenna height, read down to “statute miles” scale.