A book with "Guidelines for Solutions of Problems".

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A book with "Guidelines for Solutions of Problems".

In this volume I shall give some guidelines for solving problems in the theories of Fourier series and Systems of Differential Equations and eigenvalue problems. The reader should be aware of that it has never been my intention to write an alternative textbook, since then I would have disposed of the subject in another way. It is, however, my hope that this text can be used as a supplement to the normal textbooks in which one can find all the necessary proofs.

This text is a successor of *Calculus 1a, Functions of one Variable and Calculus 3b, Sequences and Power Series*, which will be assumed in the following.

Chapter 1 in this book is a short review of some important trigonometric formulæ, which will be used over and over again in connection with Fourier series. This is a part of the larger Chapter 1 in *Calculus 3b, Sequences and Power Series*. Here we shall we concentrate on the trigonometric functions. This introducing chapter should be studied carefully together with Appendix A, which is a collection of the important formulæ already known from high school and previous courses in Calculus. Since we shall assume this, we urge the student to learn most of the formulæ of Appendix A by heart.

The text in the following chapters is more difficult than the previous mentions texts on Calculus. The Fourier series have always been included in the syllabus, but they have also been considered by the student as very difficult. I have here added a chapter with a catalogue over standard examples and standard problems with their results, though without their corresponding calculations.

Then follows a little about linear systems of differential equations, where some results from Linear Algebra are applied. I have tried always to find the simplest methods of solution, because the traditional textbooks follow the usual tendency of using a style which is more common in advanced books on mathematics without giving the innocent reader any hint of how one may use this theory in practice. In one of the variants we use the *Caley Hamilton’s theorem* known from Linear Algebra. This theorem may, however, not be known to all readers. The theory is illustrated by (2 x 2)-matrices.

At last we give a short review of *eigenvalue problems*. This is really a difficult subject, and it is only possible to benefit from it, when one at least knows the theory of Fourier series. On the other hand, the eigenvalue problem is extremely relevant for the engineering sciences – here demonstrated by the theory for bending of beams and columns. I also know of applications in the theory of chloride ingress into concrete, let alone the periodic signals in emission theory. These applications have convinced me that the eigenvalue problems are very important for the applications. On the other hand, the theory is also difficult, so it is usually played down in the teaching which to my opinion is a pity. I shall not dare here to claim that I have found the right way to present these matters, but I shall at least give it a try.

All notes from in this series of Calculus are denoted by a number – here 4 – and a letter – here b – where

**a** stands for “compendium”,

**b** stands for “solution procedures of standard problems”,

**c** stands for “examples”.

Since this is the first edition of this text in English, I cannot avoid some errors. I hope that the reader will see mildly on such errors, as long as they are not really misleading.

Leif Mejlbro

- Review of some important trigonometric formulæ
- Trigonometric formulæ
- Integration of trigonometric polynomials

- Fourier series; methods of calculation
- General
- Standard procedure
- Standard Fourier series
- The square function
- The identical function in ] - p ; p [
- The first sawtooth function
- The second sawtooth function
- Expansion of cosine in a sinus series over a half period
- Symmetric parabolic arc in [- p ; p]
- Hyperbolic cosine in [- p ; p]
- Exponential function over ] - p ; p ]

- A list of problems in the Theory of Fourier series
- A piecewise constant function
- Piecewise linear functions
- A piecewise polynomial of second degree
- A piecewise polynomial of third degree
- A piecewise polynomial of fourth degree
- Piecewise sinus
- Piecewise cosine
- Mixed sinus and cosine
- A piecewise polynomial times a trigonometric function
- The exponential function occurs
- The problem of the assumption of no vertical half tangent

- Systems of linear dierential equations; methods
- The Existence and Uniqueness Theorem
- Constant system matrix A
- Eigenvalue method, real eigenvalues, A a constant (2 x 2)-matrix
- The eigenvalue method, complex conjugated eigenvalues, comples calculations
- The eigenvalue method, complex conjugated eigenvalues, real calculations
- Direct determination of the exponential matrix exp(At)
- The fumbling method
- Solution of an inhomogeneous linear system of dierential equations

- The eigenvalue problem of dierential equations
- Constant coecients
- Special case; the guessing method
- The initial value problem
- The boundary value problem
- The eigenvalue problem
- Examples

- Formulæ
- Squares etc.
- Powers etc.
- Differentiation
- Special derivatives
- Integration
- Special antiderivatives
- Trigonometric formulæ
- Hyperbolic formulæ
- Complex transformation formulæ
- Taylor expansions
- Magnitudes of functions

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Leif Mejlbro

*Leif Mejlbro* was educated as a mathematician at the *University of Copenhagen*, where he wrote his thesis on *Linear Partial Differential Operators and Distributions*. Shortly after he obtained a position at the *Technical University of Denmark*, where he remained until his retirement in 2003. He has twice been on leave, first time one year at the *Swedish Academy, Stockholm*, and second time at *the Copenhagen Telephone Company*, now part of the *Danish Telecommunication Company*, in both places doing research.

At the *Technical University of Denmark* he has during more than three decades given lectures in such various mathematical subjects as *Elementary Calculus, Complex Functions Theory, Functional Analysis, Laplace Transform, Special Functions, Probability Theory* and *Distribution Theory*, as well as some courses where *Calculus* and various *Engineering Sciences* were merged into a bigger course, where the lecturers had to cooperate in spite of their different background. He has written textbooks to many of the above courses.

His research in *Measure Theory* and *Complex Functions Theory* is too advanced to be of interest for more than just a few specialist, so it is not mentioned here. It must, however, be admitted that the philosophy of *Measure Theory* has deeply in
uenced his thinking also in all the other mathematical topics mentioned above.

After he retired he has been working as a consultant for engineering companies { at the latest for the *Femern Belt Consortium*, setting up some models for chloride penetration into concrete and giving some easy solution procedures for these models which can be applied straightforward without being an expert in *Mathematics*. Also, he has written a series of books on some of the topics mentioned above for the publisher *Ventus/Bookboon*.