Undervisningsplan

DatoUndervises avStedTemaKommentarer / ressurser
10.12.2009? B81 (i 8. etg., NB!)? Integration around the pole (in 3D); Eq. of motion of a floating ship; Ch. 6.18; Ch. 4.12; Time difference between particle motion above and below an airfoil in steady flow.? ?
30.11.2009? ? Excercises 2.15, 2.14, derivation of the integral equation/representation in ch. 4.11; 5.10; 6.15, 6.17, 6.18 ? In addition; course evaluation; suggestion of subjects for 7.12. NB, Exam is moved to Tue 15.12.?
23.11.2009? ? Ch 2, excercises 2.15, 2.14, 2.12, 2.8, 2.2; Lord Kelvin's Xmas eve entertainment lecture for kids, on the ship wave pattern? ?
16.11.2009? ? Ch 2.4, 2.5, 2.6, 2.7, 2.9, 2.11? ?
13.11.2009? B91? Excercises: 6.13, 5.7, 5.8, 5.9, 5.10, find the lift for a foil with centerline eta=-beta x^2. Find also the vortex distribution. Find the vortex distribution of a flat plate with angle alpha. Lecture: ch2: 2.1-7, 2.9.? IMPORTANT: LECTURE MOVED TO FRIDAY 13. NOV.?
02.11.2009? ? Exercise in Ch. 6, number 13. Exercises p. 232, 5.1, p. 233, 5.2, 5.3, 5.4, 5.6, 5.8, 5.9, 5.10, 5.11, 5.12, 5.13, Lecture, Ch. 5.7, inversion of the integral equation, + Hilbert transform on a cut.? ?
26.10.2009? ? Ch. 5.5, 5.6, Unfinished exercises continued (from last time).? ?
19.10.2009? ? Ch. 5.3, 5.4. Exercises, Ch. 6, no. 7 (p. 322), 10 (p. 323), 11, 12, 13, 14.? ?
12.10.2009? ? OBLIG 2: Prepare the mathematical derivations in Newman Ch. 6.16. Define clearly the metacenters and their heights. Lecture Ch. 6.19. 6.20. Ch. 5.1, 5.2. Introduction to lift (on wind turbindes).? ?
02.10.2009J.G.? NB, ROM B71, TID: 13.00-14.45? H?ring/godkjenning av obligene. Alle studenter blir h?rt i 13 min. Alfabetisk rekkef?lge p? etternavn. Begynner med PhD-studentene.? Make-up class for 5 Oct.?
28.09.2009? ? Kap. 6.17 og 6.18? ?
21.09.2009? ? Ch. 6.4 Introduction to Stokes waves; Ch. 6.15 Body response in regular waves. No specific exercises this week, but, students are excouraged to work with the OBLIGs.? ?
14.09.2009? ? Exercises Ch. 6, p. 321, 1, 2, 4, 5. Energy density, energy flux, introduction to Stokes waves, and OBLIG 1.? ?
07.09.2009? ? Exercises: a) derive eq. (128) on p. 143, starting with eqs. (122) and (124) (the derivation shows that the motion of a body assumes the form of a dipole, in the far field), b) exercise 13 on p. 156, exercise 15 on p. 157. The lecture will be a repetition of linear wave theory (the input wave field), ch. 6.2 and 6.3 of the book. (We thus start on chapter 6.) ? ?
31.08.2009? ? Oppgaveregning, s. 155, oppgave 4 (hint; bruk kilde med speiling om x=0). Gjennomf?r utledningen i kap. 4.11 og tilsvarende i to dimensjoner. Forelesning kap. 4.13, 4.14, 4.16? ?
24.08.2009? ? Oppgaveregning s. 154 og 155, 1, 2, 3, kap. 4.5 som eksempel. Forelesning 4.12. ? ?
17.08.2009JG? B91? J. N. Newman - Marine Hydrodynamics, MIT Press, kap. 4.10, 4.11 + eksemper. Kort oversikt over kurset.? ?
Published Aug. 17, 2009 12:32 PM - Last modified Dec. 7, 2009 2:39 PM