5.2.4	Partial fraction decomposition

An Alternative for Partial Fractions (part of the time), J.E Nymann, 14:1, 1983, 60-61, C
Efficient Techniques for Partial Fractions, Padmini T. Joshi, 14:2, 1983, 110-118
An Algebraic Approach to Partial Fractions, Phillip Schultz, 14:4, 1983, 346-348, C
An Alternative for Certain Partial Fractions, Sylvan Burgstahler, 15:1, 1984, 57-58, C
An Algebraic Approach to Partial Fractions, Joseph Wiener, 17:1, 1986, 71-72, C
A Guide to Computer Algebra Systems, John M. Hosack, 17:5, 1986, 434-441, 0.2, 4.1, 5.1.2, 5.1.5, 5.2.3, 5.2.5
A Shortcut to Partial Fractions, Xun-Cheng Huang, 22:5, 1991, 413-415, C
Differentiation via Partial Fractions: A Case Against CAS, Russell Jay Hendel, 22:5, 1991, 415-417, C
An Invitation to Integration in Finite Terms, Elena Anne Marchisotto and Gholam-Ail Zakeri, 25:4, 1994, 295-308, 2.2, 5.2.5, 5.2.9
Designing a Calculus Mobile, Tom Farmer, 33:2, 2002, 131-136, 5.4.2
A Numerical Introduction to Partial Fractions, Eric L. McDowell, 33:5, 2002, 400-403, C, 9.3
Calculus, Pi, and the Machine Age, Susan Jane Colley, 34:4, 2003, 264-269, 5.4.2, 9.6
Proof Without Words: A Partial Fraction Decomposition, Steven J. Kifowit, 36:2, 2005, 122, C
Partial Fraction Decomposition by Division, Sidney H. Kung, 37:2, 2006, 132-134, C
Partial Fractions by Substitution, David A. Rose, 38:2, 2007, 145-147, C
Partial Fractions in Calculus, Number Theory, and Algebra, C. A. Yackel and J. K. Denny, 38:5, 2007, 362-374, 9.3, 9.4
FFF #278. The integral of a positive function equals 0, Hongwei Chen, 39:3, 2008, 227-228, F, 5.3.1
Teaching Tip: Partial Fractions or No Partial Fractions?, Sidney Kung, 39:4, 2008, 306, C