Book:Harris Hancock/Lectures on the theory of elliptic functions
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Harris Hancock: Lectures on the theory of elliptic functions
Published $1910$.
Online copies
Contents
- CHAPTER 1 PRELIMINARY NOTIONS
- 1. One-valued function. Regular function. Zeros
- 2. Singular points. Pole or infinity
- 3. Essential singular points
- 4. Remark concerning the zeros and poles
- 5. The point at infinity
- 6. Convergence of series
- 7. A one-valued function that is regular at all points of the plane is a constant
- 8. The zeros and the poles of a one-valued function are necessarily isolated
- Rational functions
- 9.
- 10.
- Principal Analytical Forms of Rational Functions
- 11. First form: Where the poles and the corresponding principal parts are brought into evidence
- 12. Second form: Where the zeros and the infinities are brought into evidence
- Trigonometric functions
- 13. Integral transcendental functions
- 14. Results established by Cauchy
- 15.
- 16.
- Infinite products
- 17.
- 18.
- 19. The infinite products expressed through infinite series
- 20.
- 21.
- 22. The cot-function
- 23. Development in series
- The General Trigonometric Functions
- 24. The general trigonometric function expressed as a rational function of the cot-function
- 25. Decomposition into partial fractions
- 26. Expressed as a quotient of linear factors
- 27. Domain of convergence. Analytic continuation
- 28. Example of a function which has no definite derivative
- 29. The function is one-valued in the plane where the canals have been drawn
- 30. The process may be reversed
- 31. Algebraic addition-theorems. Definition of an elliptic function
- Examples
- CHAPTER II FUNCTIONS WHICH HAVE ALGEBRAIC ADDITION-THEOREMS
- 32. Examples of functions having algebraic addition-theorems
- 33. The addition-theorem stated
- 34. Méray's eliminant equation
- 35. The existence of this equation is universal for functions considered
- 36. A formula of fundamental importance for the addition-theorems
- 37. The higher derivatives expressed as rational functions of the function and its first derivative
- 37a.
- 38.
- 39. A form of the general integral of Méray's equation
- The Discussion Restricted to One-valued Functions
- 40. All functions which have the property that $\phi(u+v)$ may be rationally expressed through $\phi(u)$, $\phi'(u)$, $\phi(v)$, $\phi'(v)$ are one-valued
- 41.
- 42.
- 43.
- 44.
- 45.
- 46. Example showing that a function $\phi(u)$ may be such that $\phi(u+v)$ is rationally expressible through $\phi(u)$, $\phi'(u)$, $\phi(v)$, $\phi'(v)$ without having an algebraic addition-theorem
- Continuation of the Domain in which the Analytic Function $\phi(u)$ has been Defined, with Proofs that its Characteristic Properties are Retained in the Extended Domain
- 47. Definition of the function in the neighborhood of the origin
- 48.
- 49.
- 50.
- 51. The other characteristic properties of the function are also retained. The addition-theorem, while limited to a ring-formed region, exists for the whole region of convergence established for $\phi(u)$