5.5		Vector algebra and geometry (including 2x2 and 3x3
determinants)

Correlation A Vector Approach, Kenneth R. Kundert, 11:1, 1980, 52, C, 7.3
A Note on the Vector Triple Product, Thomas A. McCullough, 11:3, 1980, 206-207,
C
>From an Inequality to Inversion, Man-Keung Siu, 12:2, 1981, 149-151, C, 0.4
Partial and Semipartial Correlation-A Vector Approach, John Huber, 12:2, 1981,
151-153, C, 7.3
Vector Identities from Quaternions, William C. Schultz, 12:4, 1981, 271-273, C,
9.4
Generalized Pythagorean Triples, W.J.Hildebrand, 16:1, 1985, 48-52, 0.6, 9.3
Tetrahedra, Skew Lines and Volume, James Smith and Mason Henderson, 16:2, 1985,
138-140, C
An Alternate Proof of the Vector Triple Product Formula, William C. Schultz,
17:1, 1985, 73-74, C
Three Ways to Maximize the Area of an Inscribed Quadrilateral, Leroy F. Meyers,
17:3, 1986, 238-239, C, 0.3
Distance from a Point to a Plane with a Variation on the Pythagorean Theorem,
Abdus 	Sattar Gazdar, 23:5, 1992, 410-412, C
Kepler Orbits More Geometrico, Andrew Lenard, 25:2, 1994, 90-98, 0.3
On the Distance from a Point to a Curve, Mark Schwartz, 25:4, 1994, 317-319, C
Formulas of Linear Geometry, Heinrich W. Guggenheimer, 27:1, 1996, 24-32
A Geometric View of a Vector Identity, Yukio Kobayashi, 29:4, 1998, 309-310, C
Differential Forms for Constrained Max-Min Problems: Eliminating Lagrange Multipliers, Frank Zizza, 29:5, 1998, 387-396, 5.7.1
Computation of Planetary Orbits, Donald A. Teets and Karen Whitehead, 29:5, 1998, 397-404, 5.6.1
FFF #145.  The Height of a Trapezoid, Dale R. Buske, 30:3, 1999, 210, F
Related Rates Collide with Vectors, Stephen Fulling, 31:2, 2000, 116-119, 5.1.3