Total Inertia Force Component, Fj(d) 



The total inertia force component is defined by Equation (26) with the upper limit 

 taken to be h +'n{d), and is tabulated (Table VI, labeled "SURFACE") in dimensionless 

 form as: 



F,' = 



Cj^pTTD^ (H/T^)h 



Fl 



Total Drag Moment Component, Mj^{d) 



The total drag moment component is defined by Equation (27) with the upper limit 

 taken to be h + t?(0) and is tabulated (Table VII, labeled "SURFACE") in dimensionless 

 form as: 



Mp' = 



C pD(H/T)^h^ 



Total Inertia Moment Component, Mj(6) 



The total inertia moment component is defined by Equation (28) with an upper limit 

 of h + T?(0) and is tabulated (Table VIII, labeled "SURFACE") in dimensionless for as: 



Ml 



C^pTTD^ (H/T^)h^ 



Kinematic Free Surface Boundary Condition Error, e (0) 



The kinematic free surface boundary condition error is defined by Equation (35). This 

 variable, as defined, is in dimensionless form and is tabulated in Table X: 



Item 1, Linear Wave Theory 

 Item 2, Stream-Function Theory 



Dynamic Free Surface Boundary Condition Error, e^(d) 



The dynamic free surface boundary condition error is defined by Equation (36) and is 

 tabulated (Table X) in the following dimensionless form: 



£2 ' = 



£2 



with 



Item 3, Linear Wave Theory 

 Item 4, Stream -Function Theory 



This completes the presentation of variables depending on 6 only. 



49 



