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- Page 5 and 6: Table des matières I Etudes de pro
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- Page 9 and 10: Chapitre 1 Avant-propos tel-0054591
- Page 11 and 12: Chapitre 2 Comprendre la dynamique
- Page 13 and 14: 2.3. HIÉRARCHIE DE TYPES DE MODÈL
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- Page 17 and 18: 2.5. MA RECHERCHE DANS LE CONTEXTE
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- Page 21 and 22: Chapitre 3 Dynamique océanique et
- Page 23 and 24: 3.1. LA CIRCULATION OCÉANIQUE À G
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- Page 27 and 28: 3.2. PROCESSUS SUBMÉSO ECHELLES ET
- Page 29 and 30: 3.4. RETOUR À LA GRANDE ECHELLE PA
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- Page 35 and 36: Bibliographie tel-00545911, version
- Page 37 and 38: Deuxième partie tel-00545911, vers
- Page 39 and 40: 33 Curriculum Vitae du Dr. Achim WI
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- Page 43: Colloque bilan LEFE, Plouzané, Mai
- Page 47 and 48: Chapitre 4 Etudes de Processus Océ
- Page 49 and 50: 4.1. VARIABILITY OF THE GREAT WHIRL
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- Page 65 and 66: 4.2. THE PARAMETRIZATION OF BAROCLI
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4.3. A NON-HYDROSTATIC FLAT-BOTTOM
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4.4. TILTED CONVECTIVE PLUMES IN NU
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4.4. TILTED CONVECTIVE PLUMES IN NU
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4.4. TILTED CONVECTIVE PLUMES IN NU
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4.4. TILTED CONVECTIVE PLUMES IN NU
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4.4. TILTED CONVECTIVE PLUMES IN NU
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4.4. TILTED CONVECTIVE PLUMES IN NU
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4.5. MEAN CIRCULATION AND STRUCTURE
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4.5. MEAN CIRCULATION AND STRUCTURE
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4.5. MEAN CIRCULATION AND STRUCTURE
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4.5. MEAN CIRCULATION AND STRUCTURE
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4.5. MEAN CIRCULATION AND STRUCTURE
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4.5. MEAN CIRCULATION AND STRUCTURE
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4.5. MEAN CIRCULATION AND STRUCTURE
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4.5. MEAN CIRCULATION AND STRUCTURE
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4.6. ESTIMATION OF FRICTION PARAMET
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4.6. ESTIMATION OF FRICTION PARAMET
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4.6. ESTIMATION OF FRICTION PARAMET
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4.6. ESTIMATION OF FRICTION PARAMET
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4.6. ESTIMATION OF FRICTION PARAMET
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4.6. ESTIMATION OF FRICTION PARAMET
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4.7. ON THE BASIC STRUCTURE OF OCEA
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4.7. ON THE BASIC STRUCTURE OF OCEA
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4.7. ON THE BASIC STRUCTURE OF OCEA
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4.7. ON THE BASIC STRUCTURE OF OCEA
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4.7. ON THE BASIC STRUCTURE OF OCEA
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4.7. ON THE BASIC STRUCTURE OF OCEA
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4.7. ON THE BASIC STRUCTURE OF OCEA
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4.8. ESTIMATION OF FRICTION LAWS AN
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4.8. ESTIMATION OF FRICTION LAWS AN
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4.8. ESTIMATION OF FRICTION LAWS AN
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4.8. ESTIMATION OF FRICTION LAWS AN
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4.8. ESTIMATION OF FRICTION LAWS AN
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4.8. ESTIMATION OF FRICTION LAWS AN
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4.8. ESTIMATION OF FRICTION LAWS AN
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4.8. ESTIMATION OF FRICTION LAWS AN
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4.9. ON THE NUMERICAL RESOLUTION OF
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4.9. ON THE NUMERICAL RESOLUTION OF
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4.9. ON THE NUMERICAL RESOLUTION OF
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4.9. ON THE NUMERICAL RESOLUTION OF
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4.9. ON THE NUMERICAL RESOLUTION OF
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4.9. ON THE NUMERICAL RESOLUTION OF
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Quatrième partie tel-00545911, ver
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175 tel-00545911, version 1 - 13 De
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177 Contents 1 Preface 5 tel-005459
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179 Chapter 1 Preface tel-00545911,
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181 Chapter 2 Observing the Ocean t
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183 Chapter 3 Physical properties o
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185 3.3. θ-S DIAGRAMS 11 3.3 θ-S
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187 3.6. HEAT CAPACITY 13 tel-00545
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189 3.7. CONSERVATIVE PROPERTIES 15
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191 Chapter 4 Surface fluxes, the f
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193 4.2. FRESH WATER FLUX 19 water.
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195 Chapter 5 Dynamics of the Ocean
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197 5.2. THE LINEARIZED ONE DIMENSI
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199 5.4. TWO DIMENSIONAL STATIONARY
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201 5.6. THE CORIOLIS FORCE 27 Whic
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203 5.8. GEOSTROPHIC EQUILIBRIUM 29
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205 5.10. LINEAR POTENTIAL VORTICIT
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207 5.13. A FEW WORDS ABOUT WAVES 3
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209 Chapter 6 Gyre Circulation tel-
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211 6.1. SVERDRUP DYNAMICS IN THE S
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213 6.2. THE EKMAN LAYER 39 In the
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215 6.3. SVERDRUP DYNAMICS IN THE S
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217 Chapter 7 Multi-Layer Ocean dyn
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219 7.3. GEOSTROPHY IN A MULTI-LAYE
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221 7.5. EDDIES, BAROCLINIC INSTABI
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223 Chapter 8 Equatorial Dynamics t
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225 Chapter 9 Abyssal and Overturni
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227 9.2. MULTIPLE EQUILIBRIA OF THE
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229 9.3. WHAT DRIVES THE THERMOHALI
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231 Chapter 10 Penetration of Surfa
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233 10.2. TURBULENT TRANSPORT 59 If
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235 10.5. ENTRAINMENT 61 instabilit
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237 Chapter 11 Solution of Exercise
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239 65 Exercise 32: The moment of i
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241 INDEX 67 Transport stream-funct
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Annexe A Attestation de reussite au
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Annexe B Rapports du jury et des ra
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251 utilisés avec pertinence. Sur
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253
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