The gross tonnage calculation is defined in Regulation 3 of Annex 1 of
The International Convention on Tonnage Measurement of Ships, 1969. It is based on two variables, and is ultimately an increasing
one-to-one function of ship volume: •
V, the ship's total volume in cubic metres (m3), and •
K, a multiplier based on the ship volume. The value of the multiplier
K increases logarithmically with the ship's total volume (in cubic metres) and is applied as an amplification factor in determining the gross tonnage value.
K is calculated with a formula which uses the
common or base-10 logarithm: : K = 0.2 + 0.02 \times \log_{10}(V)\, Once
V and
K are known, gross tonnage is calculated using the formula, whereby GT is a function of V: : GT = V \times K\, which by substitution is: :GT = V\times(0.2 + 0.02\times\log_{10}(V)) Thus, gross tonnage exhibits
linearithmic growth with volume, increasing faster at larger volumes. The units of gross tonnage, which involve both cubic metres and log-metres, have no physical significance, but were rather chosen for historical convenience.
Volume from gross tonnage Since gross tonnage is a
bijective function of ship volume, it has an
inverse function, namely ship volume from gross tonnage, but the inverse cannot be expressed in terms of
elementary functions. A
root-finding algorithm may be used for obtaining an approximation to a ship's volume given its gross tonnage. The formula for exact conversion of gross tonnage to volume is: : V = \frac{50 \times \ln 10 \times GT}{W(5 \times 10^{11} \times \ln 10 \times GT)} where \ln is the
natural logarithm and W is the
Lambert W function. ==See also==