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Notes for Analysis Et/Wi

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1 Notes for Analysis Et/Wi
Third Quarter GS TU Delft 2/19/2019

2 Week 1. Surfaces and Tangential Lines
2/19/2019

3 Week 1. Surfaces and Tangential Planes
2/19/2019

4 Week 1. Parameter notation for Tangential Lines and Planes
2/19/2019

5 Week 1. Example: Tangent Lines but no Tangent Plane
2/19/2019

6 Week 1. Reminder: Differentiable in 1-d
Theorem: tangent line exists  differentiable 2/19/2019

7 Week 1. Differentiable in 2-d
Definition 2/19/2019

8 Week 1. Linearization Definition (reminder)
The linearization in a gives the tangent line to f in a. Definition The linearization in (a,b) gives the tangent plane to f in (a,b). 2/19/2019

9 Week 1. Differentiable and Partially Differentiable
Theorem 2/19/2019

10 Week 1. Partially Differentiable and Differentiable
Theorem (usually quite unworkable) 2/19/2019

11 Week 1. Chain Rule Theorem: the chain rule in 2-d 2/19/2019

12 Week 1. Example, Implicit function, a
This approach is justified by the Implicit Function Theorem, which is skipped in the present course. 2/19/2019

13 Week 1. Example, Implicit function, b
2/19/2019

14 Week 1. Example, Implicit function, c
2/19/2019

15 Week 2. Tangent lines in other directions
2/19/2019

16 Week 2. Unit vector Definition 2/19/2019

17 Week 2. Directional derivative, the definition
2/19/2019

18 Week 2. Differentiable, three flavours
Theorem 2/19/2019

19 Week 2. The gradient in 2 dimensions
Definition Theorem And a similar definition and theorem for 3 dimensions …. 2/19/2019

20 Week 2. Tangent planes to level surfaces
2/19/2019

21 Week 2. The gradient and the steepest ascent/descent
2/19/2019

22 Week 2. The gradient field
2/19/2019

23 Week 2. Definition of maxima and minima
And similar definitions for local and absolute minimum. 2/19/2019

24 Week 2. Maxima and minima 2/19/2019

25 Week 2. Pure 2nd order functions a,
a maximum a minimum 2/19/2019

26 Week 2. Pure 2nd order functions b,
many minima a saddle 2/19/2019

27 Week 2. Test for maximum, minimum or saddle
2/19/2019

28 Week 2. Second derivatives test
Theorem (the second derivatives test) 2/19/2019

29 Week 2. Open and closed Definitions
Open, closed and neither, but all 3 are bounded 2/19/2019

30 Week 2. Continuous function on closed bounded set
Theorem 2/19/2019

31 Week 3. Integrals in two dimensions, rectangular domains I
2/19/2019

32 Week 3. Integrals in two dimensions, rectangular domains II
2/19/2019

33 Week 3. Integrals in two dimensions, rectangular domains III
2/19/2019

34 Week 3. Approximation by stepfunctions
And we don’t care how it is defined on the edges. 2/19/2019

35 Week 3. The integral of a stepfunction
2/19/2019

36 Week 3. Defining the integral as a limit through stepfunctions I
Definition of Riemann-integrable In simple words: there exist stepfunctions above and below the function which have integrals that are arbitrary close. 2/19/2019

37 Week 3. Defining the integral as a limit through stepfunctions II
Definition of Riemann-integral 2/19/2019

38 Week 3. Continuous functions, Riemann-sums and integrability
Theorem: Continuous functions on a rectangle are Riemann-integrable and the Riemann-sums converge to the integral. a Riemann-sum 2/19/2019

39 Week 3. Properties of the integral
From now on we skip Riemann and will just say integrable. Just like the one-dimensional integral …. 2/19/2019

40 Week 3. The average of a function
Definition: 2/19/2019

41 Week 3. From 2-d integral to iterated 1-d integral
Fubini’s Theorem This result allows one to compute a 2-d integral. 2/19/2019

42 Week 3. Integrals over general domains
2/19/2019

43 Week 3. Type I and II domains
2/19/2019

44 Week 3. Other domains 2/19/2019

45 Week 3. Integrals over general domains, an example
2/19/2019

46 Week 3. Integrals over general domains: ‘the proof of the pudding is in the eating’.
2/19/2019

47 Week 4. Double integrals in polar coordinates
2/19/2019

48 Week 4. Double integrals in polar coordinates, heuristics
Cartesian coordinates Polar coordinates 2/19/2019

49 Week 4. Double integrals to iterated integrals by polar coordinates
Fubini’s Theorem in polar coordinates Sometimes such a domain is called a polar rectangle. 2/19/2019

50 Week 4. Integrating with polar coordinates, an example
2/19/2019

51 Week 4. The area of a domain
2/19/2019

52 Week 4. An example, the area, a
2/19/2019

53 Week 4. An example, the area, b
2/19/2019

54 Week 4. Physical applications: mass, first moments
(impulsmoment) 2/19/2019

55 Week 4. Physical applications: the center of mass
(zwaartepunt) 2/19/2019

56 Week 4. Physical applications: second moments
(traagheidsmoment) 2/19/2019

57 Week 5. Stepfunctions in 3 dimensions
2/19/2019

58 Week 5. Defining the integral as a limit through stepfunctions I
Definition of Riemann-integrable 2/19/2019

59 Week 5. Defining the integral as a limit through stepfunctions II
Definition of Riemann-integral 2/19/2019

60 Week 5. Single, double and triple integrals
2/19/2019

61 Week 5. Recalling length, area and volume, a
2/19/2019

62 Week 5. Recalling length, area and volume, b
2/19/2019

63 Week 5. Physical applications: first moments
2/19/2019

64 Week 5. Physical applications: second moments
2/19/2019

65 Week 5. From triple integral to iterated integral.
Fubini’s Theorem in 3 dimensions and there are 5 more different orders possible … . 2/19/2019

66 Week 5. Cylindrical coordinates
2/19/2019

67 Week 5. Cylindrical box 2/19/2019

68 Week 5. Cylindrical coordinates and Fubini
and there are 5 more different orders possible … . 2/19/2019

69 Week 5. Spherical coordinates
2/19/2019

70 Week 5. Spherical coordinates again
2/19/2019

71 Week 5. Spherical box 2/19/2019

72 Week 5. Spherical coordinates and Fubini
and there are 5 more different orders possible … . 2/19/2019

73 Week 6. Change of variables in single integrals
Theorem: the substitution rule 2/19/2019

74 Week 6. Change of variables in 2d
2/19/2019

75 Week 6. Some planar geometry
2/19/2019

76 Week 6. Change of variables in 2d: the area transformation
2/19/2019

77 Week 6. A name in 2d, and two definitions
Also known as injective: 2/19/2019

78 Week 6. Change of variables in double integrals
2/19/2019

79 Week 6. Change of variables in 3d, transformation of a solid
2/19/2019

80 Week 6. Jacobi in 3d 2/19/2019

81 Week 6. Change of variables in triple integrals
2/19/2019

82 Week 6. Example of 2d transformation: polar coordinates
2/19/2019

83 Week 6. Example of 3d transformation: spherical coordinates
2/19/2019

84 Week 6. Example of a transformation, a
2/19/2019

85 Week 6. Example of a transformation, b
2/19/2019

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