5.2.9	Other theory and applications of integration

A New Look at an Old Work Problem, Bert K. Waits and Jerry L. Silver, 4:3, 1973, 52-55
Bat and Superbat, Herbert R. Bailey, 18:4, 1987, 307-314, 6.4
The Volume and Centroid of the Step Pyramid of Zoser, Anthony Lo Bello, 22:4, 1991, 318-321, C, 5.2.7
FFF #50. The Lopsided Uniform Rod, Ed Barbeau, 23:1, 1992, 36-37, F (also 24:4, 1993, 345)
FFF. The Surface Area of a Sphere, Ed Barbeau, 23:3, 1992, 206, F
An Invitation to Integration in Finite Terms, Elena Anne Marchisotto and Gholam-Ail Zakeri, 25:4, 1994, 295-308, 2.2, 5.2.4, 5.2.5
Symmetry and Integration, Roger Nelsen, 26:1, 1995, 39-41, C
A Generalization of the Mean Value Theorem for Integrals, M. Sayrafiezadeh, 26:3, 1995, 223-224, C
A Normal Density Project, Robert K. Stump, 26:4, 1995, 310-312, C
Computers and Advanced Mathematics in the Calculus Classroom, Kurt Cogswell, 30:3, 1999, 213-216, C, 9.5
Integrals of (cos x)^2n and (sin x)^2n, Joseph Wiener, 31:1, 2000, 60-61, C
The Calculus and GamowÓs Theory of Gravitation, D. A. Linwood, 31:4, 2000, 281-285
Plummeting: Check This Calculation!, Jonathan Franzen, 31:4, 2000, 296
Fast-Food-Frusta and the Center of Gravity, Andrew Simoson, 31:4, 2000, 303-306, C
Differentiation with Respect to a Parameter, Joseph Wiener, 32:3, 2001, 180-184
The Attraction of Surfaces of Revolution, Adam Coffman, 32:5, 2001, 372-375, C
Mathematics Without Words: An Integral Transform, Sidney Kung, 33:4, 2002, 278, C
A Generalization of the Mean Value Theorem for Integrals, Jingcheng Tong, 33:5, 2002, 408-409, C
On the Work to Fill a Water Tank, Robert R. Rogers, 34:1, 2003, 56-58, C, 5.2.7
Odd-like (Even-like) Functions on (a, b), Zhibo Chen, Peter Hammond and Lisa Hazinski, 34:1, 2003, 64-67, C, 9.5
Visual Proof of Two Integrals, Thomas J. Osler, 34:3, 2003, 231-232, C
FFF #215. Consequences of an integral equality, Ed Barbeau, 34:4, 2003, 313, F, 9.5
FFF #232. Pi = 3, Frank Burk, 36:1, 2005, 50, F