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Picard theorem

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1: 28.27 Addition Theorems
§28.27 Addition Theorems
Addition theorems provide important connections between Mathieu functions with different parameters and in different coordinate systems. They are analogous to the addition theorems for Bessel functions (§10.23(ii)) and modified Bessel functions (§10.44(ii)). …
2: 1.10 Functions of a Complex Variable
Picard’s Theorem
§1.10(iv) Residue Theorem
Rouché’s Theorem
Lagrange Inversion Theorem
Extended Inversion Theorem
3: 16.23 Mathematical Applications
A variety of problems in classical mechanics and mathematical physics lead to Picard–Fuchs equations. … …
4: 27.15 Chinese Remainder Theorem
§27.15 Chinese Remainder Theorem
The Chinese remainder theorem states that a system of congruences x a 1 ( mod m 1 ) , , x a k ( mod m k ) , always has a solution if the moduli are relatively prime in pairs; the solution is unique (mod m ), where m is the product of the moduli. This theorem is employed to increase efficiency in calculating with large numbers by making use of smaller numbers in most of the calculation. …By the Chinese remainder theorem each integer in the data can be uniquely represented by its residues (mod m 1 ), (mod m 2 ), (mod m 3 ), and (mod m 4 ), respectively. …These numbers, in turn, are combined by the Chinese remainder theorem to obtain the final result ( mod m ) , which is correct to 20 digits. …
5: 30.10 Series and Integrals
For an addition theorem, see Meixner and Schäfke (1954, p. 300) and King and Van Buren (1973). …
6: Bibliography M
  • W. Magnus, F. Oberhettinger, and R. P. Soni (1966) Formulas and Theorems for the Special Functions of Mathematical Physics. 3rd edition, Springer-Verlag, New York-Berlin.
  • M. Mazzocco (2001b) Picard and Chazy solutions to the Painlevé VI equation. Math. Ann. 321 (1), pp. 157–195.
  • S. C. Milne (1985a) A q -analog of the F 4 5 ( 1 ) summation theorem for hypergeometric series well-poised in 𝑆𝑈 ( n ) . Adv. in Math. 57 (1), pp. 14–33.
  • S. C. Milne (1988) A q -analog of the Gauss summation theorem for hypergeometric series in U ( n ) . Adv. in Math. 72 (1), pp. 59–131.
  • S. C. Milne (1997) Balanced Θ 2 3 summation theorems for U ( n ) basic hypergeometric series. Adv. Math. 131 (1), pp. 93–187.
  • 7: 19.35 Other Applications
    §19.35(i) Mathematical
    Generalizations of elliptic integrals appear in analysis of modular theorems of Ramanujan (Anderson et al. (2000)); analysis of Selberg integrals (Van Diejen and Spiridonov (2001)); use of Legendre’s relation (19.7.1) to compute π to high precision (Borwein and Borwein (1987, p. 26)). …
    8: 10.44 Sums
    §10.44(i) Multiplication Theorem
    §10.44(ii) Addition Theorems
    Neumann’s Addition Theorem
    Graf’s and Gegenbauer’s Addition Theorems
    9: 13.13 Addition and Multiplication Theorems
    §13.13 Addition and Multiplication Theorems
    §13.13(i) Addition Theorems for M ( a , b , z )
    §13.13(ii) Addition Theorems for U ( a , b , z )
    13.13.12 e y ( x + y x ) 1 b n = 0 ( y ) n n ! x n U ( a n , b n , x ) , | y | < | x | .
    §13.13(iii) Multiplication Theorems for M ( a , b , z ) and U ( a , b , z )
    10: 10.23 Sums
    §10.23(i) Multiplication Theorem
    §10.23(ii) Addition Theorems
    Neumann’s Addition Theorem
    Graf’s and Gegenbauer’s Addition Theorems