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- #REDIRECT [[Boundary Element Method for a Rigid Body in FInite Depth]]70 bytes (11 words) - 02:49, 18 August 2008
- #REDIRECT [[Boundary Element Method for a Fixed Body in Finite Depth]]70 bytes (11 words) - 02:55, 18 August 2008
- #REDIRECT [[Boundary Element Method for a Rigid Body in Finite Depth]]70 bytes (11 words) - 02:50, 18 August 2008
- the [[:Category:Boundary Element Method|Boundary Element Method]]. The method is a modified version of the [[Boundary Element Method for a Fixed Body in Finite Depth]] described previously.7 KB (1,145 words) - 03:15, 12 February 2010
- the [[:Category:Boundary Element Method|Boundary Element Method]]. {{boundary value problem for a fixed body}}8 KB (1,400 words) - 21:32, 10 February 2010
Page text matches
- Applications of boundary element methods to problems of water waves, in ''Developments in Boundary Elements'', P.K. Banerjea and340 bytes (48 words) - 20:02, 1 May 2008
- A higher-order-coupled boundary element and finite element method for the wave forcing of a floating elastic plate}, ...ategory:Boundary Element Method|Boundary Element Method]] [[Finite Element Method]] for the three-dimensional426 bytes (56 words) - 20:00, 1 May 2008
- the [[:Category:Boundary Element Method|Boundary Element Method]]. The method is a modified version of the [[Boundary Element Method for a Fixed Body in Finite Depth]] described previously.7 KB (1,145 words) - 03:15, 12 February 2010
- the [[:Category:Boundary Element Method|Boundary Element Method]]. {{boundary value problem for a fixed body}}8 KB (1,400 words) - 21:32, 10 February 2010
- The second approach is numerical, an example of which is the method developed by [[Liu and Liggett 1982]], in which the boundary element method in a finite1 KB (159 words) - 19:13, 8 February 2010
- ...article, we restrict our domain to a finite region by imposing artificial boundary conditions at <math> x= a_1 \,</math> and <math> x= a_2 \,</math>. We deno We denote this segment of the boundary by <math> \Gamma \, </math>.8 KB (1,267 words) - 22:54, 29 September 2009
- Equation (1) is subject to the free edge boundary Here, <math>\kappa(s)</math> is the curvature of the boundary, <math>\partial \Delta</math>,9 KB (1,498 words) - 05:48, 30 October 2012
- The solution method for the linear wave forcing of a two ...ett 1982]], [[Hazard and Lenoir 1993]] and [[Meylan and Squire 1994]]. The method is based on41 KB (6,389 words) - 09:22, 20 October 2009
- is the diffracted potential. The boundary condition for the diffracted potential is Code to calculate the solution (using a slighly modified method) can be found in18 KB (2,875 words) - 12:58, 26 April 2011
- ...frequency and by removing the time-dependence the governing equations and boundary conditions will feature these terms only. ...It is first important to note that, for a given mode <math>\mu</math> the boundary condition on the structure will be8 KB (1,218 words) - 11:08, 10 December 2009
- [[Keller and Weitz 1953]] focused on the boundary value problem at the ice edge and the calculation of the transmission and r This problem is solved completely and the solution method may be particularly useful in modelling wave propagation through frazil or30 KB (4,556 words) - 10:52, 10 September 2009
- ...ring due to a series of floating breakwaters---this could be solved by the method given by [[Meylan 1993]], which describes the effect of a series of ice flo ...us accelerations at the surface, which are then incorporated into a finite element structural analysis. Clearly techniques that provide the hydrodynamic resul36 KB (5,801 words) - 09:39, 10 September 2009