Chapter 1 Infinite Series Power Series January 17

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Chapter 1 Infinite Series, Power Series January 17, 19 Geometric series 1. 1 The

Chapter 1 Infinite Series, Power Series January 17, 19 Geometric series 1. 1 The geometric series 1. 2 Definitions and notation 1. 3 Applications of series Infinite sequence: An ordered set of infinite number of quantities. Examples: Limit of an infinite sequence: Examples p 5. 1 -3; Problems 2. 7, 8. 1

Infinite series: The sum of an infinite sequence of numbers. Examples: Note: 1) The

Infinite series: The sum of an infinite sequence of numbers. Examples: Note: 1) The sum of an infinite series may or may not be finite. 2) Even when the sum is finite, we still cannot do it by adding the terms one by one. Partial sum of an infinite series: Sum of an infinite series is defined as: 2

Geometric series: A geometric series has the general term of and Partial sum of

Geometric series: A geometric series has the general term of and Partial sum of a geometric series: Sum of a geometric series: Application: Change recurring decimals into fractions. Examples: 3

Reading: L’Hospital’s rule: 4

Reading: L’Hospital’s rule: 4

Dr. Pengqian Wang’s Research Call for Physics 477 students 1. Optics 1) Crystal optics:

Dr. Pengqian Wang’s Research Call for Physics 477 students 1. Optics 1) Crystal optics: ray tracing, interference colors, interference patterns. 2) Polarizing microscopy: crystals in biological samples. 3) Holography: magnification of holograms, computer generated holograms using a spatial light modulator. 2. Molecular electronic structure theory Self-consistent-field calculation of molecular orbitals, configuration interactions. 3. Machine shop CNC (computer numerically controlled) router. 4. Electron paramagnetic resonance (EPR) Structure of matters containing transition metal atoms.

Read: Chapter 1: 1 -3 Homework: 1. 1. 2, 8; 1. 2. 1, 7.

Read: Chapter 1: 1 -3 Homework: 1. 1. 2, 8; 1. 2. 1, 7. Due: January 26 6

January 22 Convergence of series 1. 4 Convergent and divergent series Convergence of series:

January 22 Convergence of series 1. 4 Convergent and divergent series Convergence of series: If for an infinite series we have , where S is a finite number, the series is said to be convergent. Otherwise it is divergent. Note: 1) Whether or not a series is convergent is of essential interest for the series. 2) For a divergent series, Sn either approaches infinity or is oscillatory. 3) Adding or removing a finite number of terms from an infinite series will not affect whether or not it converges. Problems 4. 3, 6. 7

1. 5 Testing series for convergence; the preliminary test Preliminary test: If then the

1. 5 Testing series for convergence; the preliminary test Preliminary test: If then the series is divergent. Note: 1) The requirement that is a necessary condition for convergence of a series, but is not sufficient. E. g. , the harmonic series. 2) If , then further test is needed. Problems 5. 3, 9. 8

1. 6 Convergence test for series of positive terms; absolute convergence A. The comparison

1. 6 Convergence test for series of positive terms; absolute convergence A. The comparison test: Problems 6. 4, 5. 9

Reading: Monotone convergence theorem: Let S be a set of real numbers. A real

Reading: Monotone convergence theorem: Let S be a set of real numbers. A real number x is called an upper bound for S if x ≥ s for all s ∈ S. A real number x is the least upper bound for S if x is an upper bound for S, and x ≤ y for every upper bound y of S. Least-upper-bound property: Any set of real numbers that has an upper bound must have a least upper bound. Monotone convergence theorem: A bounded monotonic sequence of real numbers has a finite limit. 10

Read: Chapter 1: 4 -6 Homework: 1. 4. 7; 1. 5. 3, 9; 1.

Read: Chapter 1: 4 -6 Homework: 1. 4. 7; 1. 5. 3, 9; 1. 6. 4, 5. Due: February 2 11

January 24, 26 Convergence test 1. 6 Convergence test for series of positive terms;

January 24, 26 Convergence test 1. 6 Convergence test for series of positive terms; absolute convergence B. The integral test: Note: The lower limit in the integral is not necessary. Using x = 0 or x =1 may cause problems. E. g. , Example p 12; Problems 6. 12

The p-series: 13

The p-series: 13

C. The ratio test: Example p 14. 1, 2; Problems 6. 19, 21. 14

C. The ratio test: Example p 14. 1, 2; Problems 6. 19, 21. 14

D. Limit comparison test (a special comparison test): Example p 15. 1; Problems 6.

D. Limit comparison test (a special comparison test): Example p 15. 1; Problems 6. 31, 35. 15

Read: Chapter 1: 6 Homework: 1. 6. 12, 13, 21, 26, 28, 32, 35.

Read: Chapter 1: 6 Homework: 1. 6. 12, 13, 21, 26, 28, 32, 35. Due: February 2 16

January 29 Alternating series 1. 7 Alternating series 1. 8 Conditionally convergent series Absolute

January 29 Alternating series 1. 7 Alternating series 1. 8 Conditionally convergent series Absolute convergence: A series is said to be absolutely convergent if is convergent. Theorem: An absolutely convergent series is convergent. Conditional convergence: A series is convergent but is said to be conditionally convergent if is not convergent. 17

Alternating series: An alternating series is a series whose successive terms alternate in sign.

Alternating series: An alternating series is a series whose successive terms alternate in sign. E. g. , Test for alternating series (Leibnitz’s alternating series theorem): An alternating series converges if the absolute values of the terms decreases steadily to 0. That is Problems 7. 4, 6, 7. 18

1. 9 Useful facts about series 1) The convergence or divergence of a series

1. 9 Useful facts about series 1) The convergence or divergence of a series is not affected by multiplying each term by the same none-zero constant. 2) The sum of two convergent series is convergent. Problems 9. 11, 18, 19. 19

Read: Chapter 1: 7 -9 Homework: 1. 7. 3, 4, 6, 7; 1. 9.

Read: Chapter 1: 7 -9 Homework: 1. 7. 3, 4, 6, 7; 1. 9. 1, 4, 9, 10, 16, 20. Due: February 9 20

January 31, February 2 Power series 1. 10 Power series; interval of convergence Power

January 31, February 2 Power series 1. 10 Power series; interval of convergence Power series: A power series is an infinite series of the form We say that the power series is in x and is about the point a. A special case is a=0 and Interval of convergence: The range of x where the power series converges. Ratio test of the convergence of a power series: Example p 21. 2, 3; Problems 10. 2, 7, 17. 21

1. 11 Theories about power series 1) A power series may be differentiated or

1. 11 Theories about power series 1) A power series may be differentiated or integrated term by term. The resultant series converges within the original interval of convergence (but not necessarily at the endpoints). 2) Two power series may be added, subtracted, or multiplied. The resultant series converges at least in the common interval of convergence. Two power series can be divided if the denominator series is not 0, and the resultant series has some interval of convergence. 3) One series can be substituted into another if the value of the substituted series is in the interval of convergence of the other series. 4) The power series of a function is unique. These theories are easy to understand if we treat a power series as a well defined function. 22

1. 12 Expanding functions in power series Taylor series: A Taylor series expansion of

1. 12 Expanding functions in power series Taylor series: A Taylor series expansion of a function f (x) at x=a has the form Maclaurin series: The Taylor series expansion of a function f (x) at x=0: 23

1. 13 Techniques for obtaining power series expansions Some important Taylor series expansions (print

1. 13 Techniques for obtaining power series expansions Some important Taylor series expansions (print in your head): 24

Read: Chapter 1: 10 -13 Homework: 1. 10. 2, 7, 15, 23. Due: February

Read: Chapter 1: 10 -13 Homework: 1. 10. 2, 7, 15, 23. Due: February 9 25

February 5 Power series expansion 1. 13 Techniques for obtaining power series expansions A.

February 5 Power series expansion 1. 13 Techniques for obtaining power series expansions A. Multiply a series by a polynomial or by another series Example p 26. 1, 2; Problem 13. 5, 9. B. Division of two series or of a series by a polynomial Example p 27. 1; Problem 13. 22. C. Binomial series Example p 29. 2. D. Substitution of a polynomial or a series for a variable in another series Example p 29. 1; Problem 13. 10, 27. E. Combination of methods Example p 30; Problem 13. F. Taylor series using the basic Maclaurin series Example p 30. 1; Problems 13. 39. 26

1. 14 Accuracy of series approximations Error in a convergent alternating series: Example p

1. 14 Accuracy of series approximations Error in a convergent alternating series: Example p 34. 1; Problem 14. 4. Note: This rule only applies to an alternating series. 27

Theorem Problem 14. 6. 28

Theorem Problem 14. 6. 28

Read: Chapter 1: 13 -14 Homework: 1. 13. 5, 8, 14, 20, 28, 42;

Read: Chapter 1: 13 -14 Homework: 1. 13. 5, 8, 14, 20, 28, 42; (Find first 3 terms only. No computer work is needed. ) 1. 14. 6. Due: February 16 29