46 C.F.R. § 171.055
(c) Each vessel must have positive righting arms in each condition of loading and operation from—
(d) Each vessel must be designed to satisfy the following equations:
(1) For a vessel in service on protected or partially protected waters—

where— X = 1.0 long tons/sq. ft. (10.9 metric tons/sq. meter). Y = 1.1 long tons/sq. ft. (12.0 metric tons/sq. meter). Z = 1.25 long tons/sq. ft. (13.7 metric tons/sq. meter).
(2) For a vessel on exposed waters—

where— HZA, HZB, and HZC are calculated in the manner specified in paragraph (e) or (f) of this section. X = 1.5 long tons/sq. ft. (16.4 metric tons/sq. meter). Y = 1.7 long tons/sq. ft. (18.6 metric tons/sq. meter). Z = 1.9 long tons/sq. ft. (20.8 metric tons/sq. meter). A = the projected lateral area or silhouette in square feet (meters) of the portion of the vessel above the waterline computed with all sail set and trimmed flat. Sail overlap areas need not be included except parachute type spinnakers which are to be added regardless of overlap. H = the vertical distance in feet (meters) from the center of A to the center of the underwater lateral area or approximately to the one-half draft point. W = the displacement of the vessel in long (metric) tons.
(e) Except as provided in paragraph (f) of this section, HZA, HZB, and HZC must be determined as follows for each condition of loading and operation:
(3) Plot an assumed heeling arm curve on Graph 171.055(b) that satisfies the following conditions:
(i) The assumed heeling arm curve must be defined by the equation—
HZ = HZA cos 2 (T)
where— HZ = heeling arm. HZA = heeling arm at 0 degrees of heel. T = angle of heel.
(4) Plot an assumed heeling arm curve on Graph 171.055(c) that satisfies the following conditions:
(i) The assumed heeling arm curve must be defined by the equation—
HZ = HZB cos 2 (T)
where— HZ = heeling arm. HZB = heeling arm at 0 degrees of heel. T = angle of heel.
(5) Plot an assumed heeling arm curve on Graph 171.055 (d) or (e) that satisfies the following conditions:
(i) The assumed heeling arm curve must be defined by—
HZ = HZC cos 2 (T)
where— HZ = heeling arm. HZC = heeling arm at 0 degrees of heel. T = angle of heel.
(ii) The area under the assumed heeling arm curve between the angles of 0 and 90 degrees must be equal to the area under the righting arm curve between 0 degrees and—
(g) HZB and, if the righting arms are positive to an angle of 90 degrees or greater, HZC may be computed from the following equation:

where— I = the area under the righting arm curve to— (1) the downflooding angle or 60 degrees, whichever is less, when computing HZB; or (2) the largest angle corresponding to a positive righting arm or 90 degrees, whichever is greater, but no greater than 120 degrees when computing HZC. T = the downflooding angle or 60 degrees, whichever is less, when computing HZB or 90 degrees when computing HZC.





[CGD 79-023, 48 FR 51017, Nov. 4, 1983, as amended by CGD 83-005, 51 FR 924, Jan. 9, 1986]