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decus/20-0026/dcel2.doc
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SUBROUTINE DCEL2
PURPOSE
COMPUTES THE GENERALIZED COMPLETE ELLIPTIC INTEGRAL OF
SECOND KIND.
USAGE
CALL DCEL2(RES,AK,A,B,IER)
DESCRIPTION OF PARAMETERS
RES - RESULT VALUE IN DOUBLE PRECISION
AK - MODULUS (INPUT) IN DOUBLE PRECISION
A - DOUBLE PRECISION CONSTANT TERM IN NUMERATOR
B - DOUBLE PRECISION FACTOR OF QUADRATIC TERM
IN NUMERATOR
IER - RESULTANT ERROR CODE WHERE
IER=0 NO ERROR
IER=1 AK NOT IN RANGE -1 TO +1
REMARKS
FOR ABS(AK) GE 1 THE RESULT IS SET TO 1.E75 IF B IS
POSITIVE, TO -1.D75 IF B IS NEGATIVE.
SPECIAL CASES ARE
K(K) OBTAINED WITH A = 1, B = 1
E(K) OBTAINED WITH A = 1, B = CK*CK WHERE CK IS
COMPLEMENTARY MODULUS.
B(K) OBTAINED WITH A = 1, B = 0
D(K) OBTAINED WITH A = 0, B = 1
WHERE K, E, B, D DEFINE SPECIAL CASES OF THE GENERALIZED
COMPLETE ELLIPTIC INTEGRAL OF SECOND KIND IN THE USUAL
NOTATION, AND THE ARGUMENT K OF THESE FUNCTIONS MEANS
THE MODULUS.
SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED
NONE
METHOD
DEFINITION
RES=INTEGRAL((A+B*T*T)/(SQRT((1+T*T)*(1+(CK*T)**2))*(1+T*T))
SUMMED OVER T FROM 0 TO INFINITY).
EVALUATION
LANDENS TRANSFORMATION IS USED FOR CALCULATION.
REFERENCE
R.BULIRSCH, 'NUMERICAL CALCULATION OF ELLIPTIC INTEGRALS
AND ELLIPTIC FUNCTIONS', HANDBOOK SERIES SPECIAL FUNCTIONS,
NUMERISCHE MATHEMATIK VOL. 7, 1965, PP. 78-90.
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