Don’t forget

1. Don’t forget • Keys • homework

2. Sunday Sept 20th: Summary Main threads Equations of geophysical fluid dynamics Eigenfunctions of the Laplacian

3. Threads • Techniques • Eigenvalues/vectors/functions • Differentiating scalar and vector functions • Differential equations • Principles • Separation • Superposition • Objectives • Equilibrium, • Perturbations – oscillations, instabilities

4. Threads • Techniques • Eigenvalues/vectors/functions • Differentiating scalar and vector functions • Differential equations • Principles • Separation • Superposition • Objectives • Equilibrium, • Perturbations – oscillations, instabilities

5. Recall:Finding eigvals and eigvecs

6. The derivative as a limit

7. Taylor series power of h=x-x0 constant derivative at x0

8. Rules of differentiation

9. Properties of the exponential function Taylor series: Sum rule: Power rule: Derivative Indefinite integral

10. The Gradient

11. The Laplacian

12. Divergence of a vector field

13. Curl

14. Partial differential equations Algebraicequation: involves functions; solutions are numbers. Ordinary differential equation (ODE): involves total derivatives; solutions are univariate functions. Partial differential equation (PDE): involves partial derivatives; solutions are multivariate functions.

15. Threads • Techniques • Differentiating scalar and vector functions • Differential equations • Eigenvalues/vectors/functions • Principles • Separation • Superposition • Objectives • Equilibrium, • Perturbations – oscillations, instabilities

16. Separation of Variables

17. Separation/superposition in linear systems separation superposition

18. Wave superposition, Beats wave beats

19. Tides at Newport, Sept 12-20 2009 Sat 12 Sun 13 Mon 14 Tue 15 Wed16 Thu 17 Fri 18 Sat 19 Sun 20 Spring tides

20. Superposition(linear, homogeneous equations) Can build a complex solution from the sum of two or more simpler solutions.

21. Superposition in PDEs

22. Threads • Techniques • Differentiating scalar and vector functions • Differential equations • Eigenvalues/vectors/functions • Principles • Separation • Superposition • Objectives • Equilibrium, • Perturbations – oscillations, instabilities

23. Perturbations about equilibrium Equilibrium: F=0 (LINEARIZATION) ~0

24. Lunar tides

25. Interpreting σ

26. Interpreting two σ’s a. attractor b. repellor c. saddle d. limit cycle e. unstable spiral f. stable spiral

27. 3D system: chaos

28. Threads • Techniques • Differentiating scalar and vector functions • Differential equations • Eigenvalues/vectors/functions • Principles • Separation • Superposition • Objectives • Equilibrium, • Perturbations – oscillations, instabilities

29. Threads • Techniques • Differentiating scalar and vector functions • Differential equations • Eigenvalues/vectors/functions • Principles • Separation • Superposition • Objectives • Equilibrium, • Perturbations – oscillations, instabilities

30. The equations of geophysical fluid dynamics density diffusion flow velocity

31. Pressure gradient Coriolis Viscosity (velocity diffusion) Buoyancy

32. Motionless equilibrium

33. Motionless (hydrostatic) equilibrium

34. Geostrophic equilibrium • Neglect viscosity • Assume velocity is small, so that products are negligible • Set time derivatives to zero. Pressure gradient Coriolis

35. Geostrophic equilibrium Flow is along isopycnals.

36. Geostrophic equilibrium Flow is along isopycnals.

38. Threads • Techniques • Differentiating scalar and vector functions • Differential equations • Eigenvalues/vectors/functions • Principles • Separation • Superposition • Objectives • Equilibrium, • Perturbations – oscillations, instabilities

39. Eigenfunctions of the Laplacian:diffusion

40. Eigenfunctions of the Laplacian: diffusion

41. Eigenfunctions of the Laplacian: diffusion

42. Eigenfunctions of the Laplacian:waves

43. Cylindrical coordinates cylindrical Chain rule:

44. Waves on a circular basin

45. Waves on a circular basin

46. Waves on a circular basin Bessel’s equation Bessel functions Analyze just like exp, sin, cos.

47. Bessel functions Y singular at r=0. To fit initial conditions: (superposition)

48. Spherical coordinates

49. Threads • Techniques • Differentiating scalar and vector functions • Differential equations • Eigenvalues/vectors/functions • Principles • Separation • Superposition • Objectives • Equilibrium, • Perturbations – oscillations, instabilities

50. Don’t forget • Keys • Homework • Mart!n’s coat, stapler