Internformat: Waves and wave forces on coastal and ocean structures /

Waves and wave forces on coastal and ocean structures /:

This work focuses on: the physics of the fundamental dynamics of fluids and of semi-immersed Lagrangian solid bodies that are responding to wave-induced loads; the scaling of dimensional equations and boundary value problems, in order to determine a small dimensionless parameter - say, e - that may...

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1. Verfasser:	Hudspeth, Robert T.
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Hackensack, N.J. : World Scientific, ©2006.
Schriftenreihe:	Advanced series on ocean engineering ; v. 21.
Schlagworte:	Water waves > Mathematical models. Fluid dynamics > Mathematical models. Ocean waves > Mathematical models. Vagues > Modèles mathématiques. Dynamique des fluides > Modèles mathématiques. TECHNOLOGY & ENGINEERING > Structural. Fluid dynamics > Mathematical models Ocean waves > Mathematical models Water waves > Mathematical models
Online-Zugang:	Volltext
Zusammenfassung:	This work focuses on: the physics of the fundamental dynamics of fluids and of semi-immersed Lagrangian solid bodies that are responding to wave-induced loads; the scaling of dimensional equations and boundary value problems, in order to determine a small dimensionless parameter - say, e - that may be used to linearize the equations and the boundary value problems so as to obtain a linear system; the replacement of differential and integral calculus with algebraic equations that require only algebraic substitutions instead of differentiations and integrations; and the importance of comparing numerical and analytical computations with data from laboratories and/or nature.
Beschreibung:	1 online resource (xx, 932 pages) : illustrations
Format:	Master and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002.
Bibliographie:	Includes bibliographical references (pages 867-908) and indexes.
ISBN:	9781615830374 1615830375 9789812774828 9812774823 9789812386120 9812386122 1281379182 9781281379184
Zugangseinschränkungen:	Access restricted to Ryerson students, faculty and staff.

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245	1	0	\|a Waves and wave forces on coastal and ocean structures / \|c Robert T. Hudspeth.
260			\|a Hackensack, N.J. : \|b World Scientific, \|c ©2006.
300			\|a 1 online resource (xx, 932 pages) : \|b illustrations
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490	1		\|a Advanced series on ocean engineering ; \|v v. 21
504			\|a Includes bibliographical references (pages 867-908) and indexes.
588	0		\|a Print version record.
506			\|3 Use copy \|f Restrictions unspecified \|2 star \|5 MiAaHDL
520			\|a This work focuses on: the physics of the fundamental dynamics of fluids and of semi-immersed Lagrangian solid bodies that are responding to wave-induced loads; the scaling of dimensional equations and boundary value problems, in order to determine a small dimensionless parameter - say, e - that may be used to linearize the equations and the boundary value problems so as to obtain a linear system; the replacement of differential and integral calculus with algebraic equations that require only algebraic substitutions instead of differentiations and integrations; and the importance of comparing numerical and analytical computations with data from laboratories and/or nature.
533			\|a Electronic reproduction. \|b [Place of publication not identified] : \|c HathiTrust Digital Library, \|d 2010. \|5 MiAaHDL
538			\|a Master and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002. \|u http://purl.oclc.org/DLF/benchrepro0212 \|5 MiAaHDL
583	1		\|a digitized \|c 2010 \|h HathiTrust Digital Library \|l committed to preserve \|2 pda \|5 MiAaHDL
506			\|a Access restricted to Ryerson students, faculty and staff. \|5 CaOTR
505	0		\|a 1. Introduction -- 2. Mathematical preliminaries. 2.1. Introduction. 2.2. Symbols, functions and linear operators. 2.3. Properties of series. 2.4. Elementary and special functions (Hildebrand, 1976, chapter 10.2). 2.5. Linear ordinary differential equations (Hildebrand, 1976, chapters 1.1 to 1.11) and operational calculus (Friedman, 1956). 2.6. Sturm-Liouville systems (Morse and Feshbach, 1953, chapter 6.3; Hildebrand, 1976, chapter 5.6; Oates, 1990, chapter 3.6.5. and Benton, 1990, chapter 6.6.) -- 3. Fundamentals of fluid mechanics. 3.1. Introduction. 3.2. Conservation of mass (continuity field equation). 3.3. Momentum principle. 3.4. Mechanical energy principle. 3.5. Scaling of equations. 3.6. Dimensional analyses. 3.7. Problems -- 4. Long-crested, Linear Wave Theory (LWT). 4.1. Introduction. 4.2. Dimensional Boundary Value Problem (BVP) for LWT -- 4.3. Solutions to Dimensional Boundary Value Problem (BVP) for long-crested, Linear Wave Theory (LWT). 4.4. Eulerian kinematic fields and Lagrangian particle displacements. 4.5. Eulerian dynamic fields, energy and energy flux conservation principles for long-crested linear waves. 4.6. Wave transformations for long-crested, progressive linear waves: shoaling and refraction. 4.7. Problems -- 5. Wavemaker theories. 5.1. Introduction. 5.2. Planar wavemakers in a 2D channel. 5.3. Circular wavemakers. 5.4. Double-actuated wavemaker. 5.5. Directional wavemaker. 5.6. Sloshing waves in a 2D wave channel. 5.7. Conformal and domain mapping of WMBVP. 5.8. Problems -- 6. Nonlinear wave theories. 6.1. Introduction. 6.2. Classical stokes: the method of successive approximations. 6.3. Traditional stokes: Lindstedt-Poincare 4th order perturbation solution. 6.4. Method of Multiple Scales (MMS). 6.5. Stream function solutions. 6.6. Breaking progressive waves. 6.7. Second-order nonlinear planar wavemaker theory. 6.8. Chaotic cross waves: Generalized Melnikov Method (GMM) and Liapunov exponents. 6.9. Problems -- 7. Deterministic dynamics of small solid bodies. 7.1. Introduction. 7.2. Small body hypothesis (Morison Equation). 7.3. Drag dF[symbol] and inertia dFm forces. 7.4. Comparison between a fixed cylinder in accelerating flow and an accelerating cylinder in still fluid. 7.5. Maximum static-equivalent force/moment (fixed-free beam). 7.6. Parametric dependency of force coefficients C[symbol] and C[symbol]. 7.7. The dean eccentricity parameter and data condition. 7.8. Modified Wave Force Equation (WFE, relative motion Morison equation). 7.9. Transverse forces on bluff solid bodies. 7.10. Stability of marine pipelines. 7.11. Problems -- 8. Deterministic dynamics of large solid bodies. 8.1. Dynamic response of large bodies: an overview. 8.2. Linearized MDOF large solid body dynamics. 8.3. Froude-Kriloff approximations for potential theory. 8.4. Diffraction by a full-draft vertical circular cylinder. 8.5. Reciprocity relationships. 8.6. Green's functions and Fredholm integral equations. 8.7. Wave loads computed by the FEM. 8.8. Problems -- 9. Real ocean waves. 9.1. Introduction. 9.2. Fourier analyses. 9.3. Ocean wave spectra. 9.4. Probability functions for random waves. 9.5. Wave groups. 9.6. Random wave simulations. 9.7. Data analyses: an example from Hurricane CARLA. 9.8. Random wave forces on small circular members. 9.9. Frequency domain input-output transfer functions. 9.10. Problems.
650		0	\|a Water waves \|x Mathematical models.
650		0	\|a Fluid dynamics \|x Mathematical models.
650		0	\|a Ocean waves \|x Mathematical models.
650		6	\|a Vagues \|x Modèles mathématiques.
650		6	\|a Dynamique des fluides \|x Modèles mathématiques.
650		7	\|a TECHNOLOGY & ENGINEERING \|x Structural. \|2 bisacsh
650		7	\|a Fluid dynamics \|x Mathematical models \|2 fast
650		7	\|a Ocean waves \|x Mathematical models \|2 fast
650		7	\|a Water waves \|x Mathematical models \|2 fast
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830		0	\|a Advanced series on ocean engineering ; \|v v. 21. \|0 http://id.loc.gov/authorities/names/n88524140
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contents	1. Introduction -- 2. Mathematical preliminaries. 2.1. Introduction. 2.2. Symbols, functions and linear operators. 2.3. Properties of series. 2.4. Elementary and special functions (Hildebrand, 1976, chapter 10.2). 2.5. Linear ordinary differential equations (Hildebrand, 1976, chapters 1.1 to 1.11) and operational calculus (Friedman, 1956). 2.6. Sturm-Liouville systems (Morse and Feshbach, 1953, chapter 6.3; Hildebrand, 1976, chapter 5.6; Oates, 1990, chapter 3.6.5. and Benton, 1990, chapter 6.6.) -- 3. Fundamentals of fluid mechanics. 3.1. Introduction. 3.2. Conservation of mass (continuity field equation). 3.3. Momentum principle. 3.4. Mechanical energy principle. 3.5. Scaling of equations. 3.6. Dimensional analyses. 3.7. Problems -- 4. Long-crested, Linear Wave Theory (LWT). 4.1. Introduction. 4.2. Dimensional Boundary Value Problem (BVP) for LWT -- 4.3. Solutions to Dimensional Boundary Value Problem (BVP) for long-crested, Linear Wave Theory (LWT). 4.4. Eulerian kinematic fields and Lagrangian particle displacements. 4.5. Eulerian dynamic fields, energy and energy flux conservation principles for long-crested linear waves. 4.6. Wave transformations for long-crested, progressive linear waves: shoaling and refraction. 4.7. Problems -- 5. Wavemaker theories. 5.1. Introduction. 5.2. Planar wavemakers in a 2D channel. 5.3. Circular wavemakers. 5.4. Double-actuated wavemaker. 5.5. Directional wavemaker. 5.6. Sloshing waves in a 2D wave channel. 5.7. Conformal and domain mapping of WMBVP. 5.8. Problems -- 6. Nonlinear wave theories. 6.1. Introduction. 6.2. Classical stokes: the method of successive approximations. 6.3. Traditional stokes: Lindstedt-Poincare 4th order perturbation solution. 6.4. Method of Multiple Scales (MMS). 6.5. Stream function solutions. 6.6. Breaking progressive waves. 6.7. Second-order nonlinear planar wavemaker theory. 6.8. Chaotic cross waves: Generalized Melnikov Method (GMM) and Liapunov exponents. 6.9. Problems -- 7. Deterministic dynamics of small solid bodies. 7.1. Introduction. 7.2. Small body hypothesis (Morison Equation). 7.3. Drag dF[symbol] and inertia dFm forces. 7.4. Comparison between a fixed cylinder in accelerating flow and an accelerating cylinder in still fluid. 7.5. Maximum static-equivalent force/moment (fixed-free beam). 7.6. Parametric dependency of force coefficients C[symbol] and C[symbol]. 7.7. The dean eccentricity parameter and data condition. 7.8. Modified Wave Force Equation (WFE, relative motion Morison equation). 7.9. Transverse forces on bluff solid bodies. 7.10. Stability of marine pipelines. 7.11. Problems -- 8. Deterministic dynamics of large solid bodies. 8.1. Dynamic response of large bodies: an overview. 8.2. Linearized MDOF large solid body dynamics. 8.3. Froude-Kriloff approximations for potential theory. 8.4. Diffraction by a full-draft vertical circular cylinder. 8.5. Reciprocity relationships. 8.6. Green's functions and Fredholm integral equations. 8.7. Wave loads computed by the FEM. 8.8. Problems -- 9. Real ocean waves. 9.1. Introduction. 9.2. Fourier analyses. 9.3. Ocean wave spectra. 9.4. Probability functions for random waves. 9.5. Wave groups. 9.6. Random wave simulations. 9.7. Data analyses: an example from Hurricane CARLA. 9.8. Random wave forces on small circular members. 9.9. Frequency domain input-output transfer functions. 9.10. Problems.
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Elementary and special functions (Hildebrand, 1976, chapter 10.2). 2.5. Linear ordinary differential equations (Hildebrand, 1976, chapters 1.1 to 1.11) and operational calculus (Friedman, 1956). 2.6. Sturm-Liouville systems (Morse and Feshbach, 1953, chapter 6.3; Hildebrand, 1976, chapter 5.6; Oates, 1990, chapter 3.6.5. and Benton, 1990, chapter 6.6.) -- 3. Fundamentals of fluid mechanics. 3.1. Introduction. 3.2. Conservation of mass (continuity field equation). 3.3. Momentum principle. 3.4. Mechanical energy principle. 3.5. Scaling of equations. 3.6. Dimensional analyses. 3.7. Problems -- 4. Long-crested, Linear Wave Theory (LWT). 4.1. Introduction. 4.2. Dimensional Boundary Value Problem (BVP) for LWT -- 4.3. Solutions to Dimensional Boundary Value Problem (BVP) for long-crested, Linear Wave Theory (LWT). 4.4. Eulerian kinematic fields and Lagrangian particle displacements. 4.5. Eulerian dynamic fields, energy and energy flux conservation principles for long-crested linear waves. 4.6. Wave transformations for long-crested, progressive linear waves: shoaling and refraction. 4.7. Problems -- 5. Wavemaker theories. 5.1. Introduction. 5.2. Planar wavemakers in a 2D channel. 5.3. Circular wavemakers. 5.4. Double-actuated wavemaker. 5.5. Directional wavemaker. 5.6. Sloshing waves in a 2D wave channel. 5.7. Conformal and domain mapping of WMBVP. 5.8. Problems -- 6. Nonlinear wave theories. 6.1. Introduction. 6.2. Classical stokes: the method of successive approximations. 6.3. Traditional stokes: Lindstedt-Poincare 4th order perturbation solution. 6.4. Method of Multiple Scales (MMS). 6.5. Stream function solutions. 6.6. Breaking progressive waves. 6.7. Second-order nonlinear planar wavemaker theory. 6.8. Chaotic cross waves: Generalized Melnikov Method (GMM) and Liapunov exponents. 6.9. Problems -- 7. Deterministic dynamics of small solid bodies. 7.1. Introduction. 7.2. Small body hypothesis (Morison Equation). 7.3. Drag dF[symbol] and inertia dFm forces. 7.4. Comparison between a fixed cylinder in accelerating flow and an accelerating cylinder in still fluid. 7.5. Maximum static-equivalent force/moment (fixed-free beam). 7.6. Parametric dependency of force coefficients C[symbol] and C[symbol]. 7.7. The dean eccentricity parameter and data condition. 7.8. Modified Wave Force Equation (WFE, relative motion Morison equation). 7.9. Transverse forces on bluff solid bodies. 7.10. Stability of marine pipelines. 7.11. Problems -- 8. Deterministic dynamics of large solid bodies. 8.1. Dynamic response of large bodies: an overview. 8.2. Linearized MDOF large solid body dynamics. 8.3. Froude-Kriloff approximations for potential theory. 8.4. Diffraction by a full-draft vertical circular cylinder. 8.5. Reciprocity relationships. 8.6. Green's functions and Fredholm integral equations. 8.7. Wave loads computed by the FEM. 8.8. Problems -- 9. Real ocean waves. 9.1. Introduction. 9.2. Fourier analyses. 9.3. Ocean wave spectra. 9.4. Probability functions for random waves. 9.5. Wave groups. 9.6. Random wave simulations. 9.7. Data analyses: an example from Hurricane CARLA. 9.8. Random wave forces on small circular members. 9.9. Frequency domain input-output transfer functions. 9.10. 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spelling	Hudspeth, Robert T. http://id.loc.gov/authorities/names/n92089217 Waves and wave forces on coastal and ocean structures / Robert T. Hudspeth. Hackensack, N.J. : World Scientific, ©2006. 1 online resource (xx, 932 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier data file Advanced series on ocean engineering ; v. 21 Includes bibliographical references (pages 867-908) and indexes. Print version record. Use copy Restrictions unspecified star MiAaHDL This work focuses on: the physics of the fundamental dynamics of fluids and of semi-immersed Lagrangian solid bodies that are responding to wave-induced loads; the scaling of dimensional equations and boundary value problems, in order to determine a small dimensionless parameter - say, e - that may be used to linearize the equations and the boundary value problems so as to obtain a linear system; the replacement of differential and integral calculus with algebraic equations that require only algebraic substitutions instead of differentiations and integrations; and the importance of comparing numerical and analytical computations with data from laboratories and/or nature. Electronic reproduction. [Place of publication not identified] : HathiTrust Digital Library, 2010. MiAaHDL Master and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002. http://purl.oclc.org/DLF/benchrepro0212 MiAaHDL digitized 2010 HathiTrust Digital Library committed to preserve pda MiAaHDL Access restricted to Ryerson students, faculty and staff. CaOTR 1. Introduction -- 2. Mathematical preliminaries. 2.1. Introduction. 2.2. Symbols, functions and linear operators. 2.3. Properties of series. 2.4. Elementary and special functions (Hildebrand, 1976, chapter 10.2). 2.5. Linear ordinary differential equations (Hildebrand, 1976, chapters 1.1 to 1.11) and operational calculus (Friedman, 1956). 2.6. Sturm-Liouville systems (Morse and Feshbach, 1953, chapter 6.3; Hildebrand, 1976, chapter 5.6; Oates, 1990, chapter 3.6.5. and Benton, 1990, chapter 6.6.) -- 3. Fundamentals of fluid mechanics. 3.1. Introduction. 3.2. Conservation of mass (continuity field equation). 3.3. Momentum principle. 3.4. Mechanical energy principle. 3.5. Scaling of equations. 3.6. Dimensional analyses. 3.7. Problems -- 4. Long-crested, Linear Wave Theory (LWT). 4.1. Introduction. 4.2. Dimensional Boundary Value Problem (BVP) for LWT -- 4.3. Solutions to Dimensional Boundary Value Problem (BVP) for long-crested, Linear Wave Theory (LWT). 4.4. Eulerian kinematic fields and Lagrangian particle displacements. 4.5. Eulerian dynamic fields, energy and energy flux conservation principles for long-crested linear waves. 4.6. Wave transformations for long-crested, progressive linear waves: shoaling and refraction. 4.7. Problems -- 5. Wavemaker theories. 5.1. Introduction. 5.2. Planar wavemakers in a 2D channel. 5.3. Circular wavemakers. 5.4. Double-actuated wavemaker. 5.5. Directional wavemaker. 5.6. Sloshing waves in a 2D wave channel. 5.7. Conformal and domain mapping of WMBVP. 5.8. Problems -- 6. Nonlinear wave theories. 6.1. Introduction. 6.2. Classical stokes: the method of successive approximations. 6.3. Traditional stokes: Lindstedt-Poincare 4th order perturbation solution. 6.4. Method of Multiple Scales (MMS). 6.5. Stream function solutions. 6.6. Breaking progressive waves. 6.7. Second-order nonlinear planar wavemaker theory. 6.8. Chaotic cross waves: Generalized Melnikov Method (GMM) and Liapunov exponents. 6.9. Problems -- 7. Deterministic dynamics of small solid bodies. 7.1. Introduction. 7.2. Small body hypothesis (Morison Equation). 7.3. Drag dF[symbol] and inertia dFm forces. 7.4. Comparison between a fixed cylinder in accelerating flow and an accelerating cylinder in still fluid. 7.5. Maximum static-equivalent force/moment (fixed-free beam). 7.6. Parametric dependency of force coefficients C[symbol] and C[symbol]. 7.7. The dean eccentricity parameter and data condition. 7.8. Modified Wave Force Equation (WFE, relative motion Morison equation). 7.9. Transverse forces on bluff solid bodies. 7.10. Stability of marine pipelines. 7.11. Problems -- 8. Deterministic dynamics of large solid bodies. 8.1. Dynamic response of large bodies: an overview. 8.2. Linearized MDOF large solid body dynamics. 8.3. Froude-Kriloff approximations for potential theory. 8.4. Diffraction by a full-draft vertical circular cylinder. 8.5. Reciprocity relationships. 8.6. Green's functions and Fredholm integral equations. 8.7. Wave loads computed by the FEM. 8.8. Problems -- 9. Real ocean waves. 9.1. Introduction. 9.2. Fourier analyses. 9.3. Ocean wave spectra. 9.4. Probability functions for random waves. 9.5. Wave groups. 9.6. Random wave simulations. 9.7. Data analyses: an example from Hurricane CARLA. 9.8. Random wave forces on small circular members. 9.9. Frequency domain input-output transfer functions. 9.10. Problems. Water waves Mathematical models. Fluid dynamics Mathematical models. Ocean waves Mathematical models. Vagues Modèles mathématiques. Dynamique des fluides Modèles mathématiques. TECHNOLOGY & ENGINEERING Structural. bisacsh Fluid dynamics Mathematical models fast Ocean waves Mathematical models fast Water waves Mathematical models fast has work: Waves and wave forces on coastal and ocean structures (Text) https://id.oclc.org/worldcat/entity/E39PCFWxwHC4vqy3vQf84QTM4C https://id.oclc.org/worldcat/ontology/hasWork Print version: Hudspeth, Robert T. Waves and wave forces on coastal and ocean structures. Hackensack, N.J. : World Scientific, ©2006 9812386122 (DLC) 2006297152 (OCoLC)69170082 Advanced series on ocean engineering ; v. 21. http://id.loc.gov/authorities/names/n88524140 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=210847 Volltext
spellingShingle	Hudspeth, Robert T. Waves and wave forces on coastal and ocean structures / Advanced series on ocean engineering ; 1. Introduction -- 2. Mathematical preliminaries. 2.1. Introduction. 2.2. Symbols, functions and linear operators. 2.3. Properties of series. 2.4. Elementary and special functions (Hildebrand, 1976, chapter 10.2). 2.5. Linear ordinary differential equations (Hildebrand, 1976, chapters 1.1 to 1.11) and operational calculus (Friedman, 1956). 2.6. Sturm-Liouville systems (Morse and Feshbach, 1953, chapter 6.3; Hildebrand, 1976, chapter 5.6; Oates, 1990, chapter 3.6.5. and Benton, 1990, chapter 6.6.) -- 3. Fundamentals of fluid mechanics. 3.1. Introduction. 3.2. Conservation of mass (continuity field equation). 3.3. Momentum principle. 3.4. Mechanical energy principle. 3.5. Scaling of equations. 3.6. Dimensional analyses. 3.7. Problems -- 4. Long-crested, Linear Wave Theory (LWT). 4.1. Introduction. 4.2. Dimensional Boundary Value Problem (BVP) for LWT -- 4.3. Solutions to Dimensional Boundary Value Problem (BVP) for long-crested, Linear Wave Theory (LWT). 4.4. Eulerian kinematic fields and Lagrangian particle displacements. 4.5. Eulerian dynamic fields, energy and energy flux conservation principles for long-crested linear waves. 4.6. Wave transformations for long-crested, progressive linear waves: shoaling and refraction. 4.7. Problems -- 5. Wavemaker theories. 5.1. Introduction. 5.2. Planar wavemakers in a 2D channel. 5.3. Circular wavemakers. 5.4. Double-actuated wavemaker. 5.5. Directional wavemaker. 5.6. Sloshing waves in a 2D wave channel. 5.7. Conformal and domain mapping of WMBVP. 5.8. Problems -- 6. Nonlinear wave theories. 6.1. Introduction. 6.2. Classical stokes: the method of successive approximations. 6.3. Traditional stokes: Lindstedt-Poincare 4th order perturbation solution. 6.4. Method of Multiple Scales (MMS). 6.5. Stream function solutions. 6.6. Breaking progressive waves. 6.7. Second-order nonlinear planar wavemaker theory. 6.8. Chaotic cross waves: Generalized Melnikov Method (GMM) and Liapunov exponents. 6.9. Problems -- 7. Deterministic dynamics of small solid bodies. 7.1. Introduction. 7.2. Small body hypothesis (Morison Equation). 7.3. Drag dF[symbol] and inertia dFm forces. 7.4. Comparison between a fixed cylinder in accelerating flow and an accelerating cylinder in still fluid. 7.5. Maximum static-equivalent force/moment (fixed-free beam). 7.6. Parametric dependency of force coefficients C[symbol] and C[symbol]. 7.7. The dean eccentricity parameter and data condition. 7.8. Modified Wave Force Equation (WFE, relative motion Morison equation). 7.9. Transverse forces on bluff solid bodies. 7.10. Stability of marine pipelines. 7.11. Problems -- 8. Deterministic dynamics of large solid bodies. 8.1. Dynamic response of large bodies: an overview. 8.2. Linearized MDOF large solid body dynamics. 8.3. Froude-Kriloff approximations for potential theory. 8.4. Diffraction by a full-draft vertical circular cylinder. 8.5. Reciprocity relationships. 8.6. Green's functions and Fredholm integral equations. 8.7. Wave loads computed by the FEM. 8.8. Problems -- 9. Real ocean waves. 9.1. Introduction. 9.2. Fourier analyses. 9.3. Ocean wave spectra. 9.4. Probability functions for random waves. 9.5. Wave groups. 9.6. Random wave simulations. 9.7. Data analyses: an example from Hurricane CARLA. 9.8. Random wave forces on small circular members. 9.9. Frequency domain input-output transfer functions. 9.10. Problems. Water waves Mathematical models. Fluid dynamics Mathematical models. Ocean waves Mathematical models. Vagues Modèles mathématiques. Dynamique des fluides Modèles mathématiques. TECHNOLOGY & ENGINEERING Structural. bisacsh Fluid dynamics Mathematical models fast Ocean waves Mathematical models fast Water waves Mathematical models fast
title	Waves and wave forces on coastal and ocean structures /
title_auth	Waves and wave forces on coastal and ocean structures /
title_exact_search	Waves and wave forces on coastal and ocean structures /
title_full	Waves and wave forces on coastal and ocean structures / Robert T. Hudspeth.
title_fullStr	Waves and wave forces on coastal and ocean structures / Robert T. Hudspeth.
title_full_unstemmed	Waves and wave forces on coastal and ocean structures / Robert T. Hudspeth.
title_short	Waves and wave forces on coastal and ocean structures /
title_sort	waves and wave forces on coastal and ocean structures
topic	Water waves Mathematical models. Fluid dynamics Mathematical models. Ocean waves Mathematical models. Vagues Modèles mathématiques. Dynamique des fluides Modèles mathématiques. TECHNOLOGY & ENGINEERING Structural. bisacsh Fluid dynamics Mathematical models fast Ocean waves Mathematical models fast Water waves Mathematical models fast
topic_facet	Water waves Mathematical models. Fluid dynamics Mathematical models. Ocean waves Mathematical models. Vagues Modèles mathématiques. Dynamique des fluides Modèles mathématiques. TECHNOLOGY & ENGINEERING Structural. Fluid dynamics Mathematical models Ocean waves Mathematical models Water waves Mathematical models
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work_keys_str_mv	AT hudspethrobertt wavesandwaveforcesoncoastalandoceanstructures

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