Separating Hyperplanes and the Authorship of Disputed Federalist Papers
by Robert A. Bosch and Jason A. Smith
We demonstrate how a linear program devised by Bennett and Mangasarian can be applied to certain authorship problems. We use as an illustration the problem of determining who wrote the disputed Federalist papers: Alexander Hamilton or James Madison.
Two Functions Whose Powers Make Fractals
by Marc Frantz
A common counterexample in real analysis is the function f defined on (0,1) by letting f(x)=0 if x is irrational, and f(x)=1/n if x=m/n with m and n relatively prime. Variations of this function can be constructed by raising 1/n to a power p>1, or by replacing the rationals with the dyadic rationals (fractions with denominators that are powers of 2). In each case the graph looks like a fractal , and indeed the graphs are easily generated by simple iterated function systems like those commonly used in fractal geometry. For sufficiently large values of p, the nondifferentiability sets of these functions have nonintegral Hausdorff dimensions, and this can be proved by exploiting interesting connections with rational approximation theory. By thinking of the functions as step-width functions for Devil's staircases, connections can also be made with important dynamical systems.
Pinhole Cameras, Perspective, and Projective Geometry
by M. H. Eggar
In art, perspective is often used to convey depth cues and enhance the reality of a picture. Suppose collinear points in three dimensions are always represented as collinear points in the picture. When is such a picture obtained by the projection from an artist's eye onto a canvas? When it is, how can one reconstruct from the picture the positions of the artist's eye and the canvas? This is the same problem as locating from a small part of a photo taken by a pinhole camera the position from which the photo was taken. The connection between these questions and theorems of (projective) geometry, such as Desargues' theorem and the invariance of cross-ratio theorem, is made precise.
by Kosta Dosen
This article is about definitions of the general notions of function, onto function, and one-one function that exhibit clearly the regularities and symmetries of these notions. These definitions match a Galois connection.
Unique Developments in Non-Integer Bases
by Vilmos Komornik and Paola Loreti
According to a surprising theorem of Erdös, Horváth and JoóÂ—, there exist numbers 1 q
Mathematics on a Distant Planet
by R. W. Hamming
The paper examines the question of how much of standard mathematics is arbitrary and how much is fixed.
A Theorem of Burnside on Matrix Rings
by T. Y. Lam
On the Diophantine Equation
by Hong Bing Yu
by Ira M. Gessel
THE EVOLUTION OF...
Nonstandard Analyses and the History of Classical Analysis
by F. A. Medvedev
PROBLEMS AND SOLUTIONS
Introduction to Calculus and Classical Analysis.
By Omar Hijab.
Introduction to Mathematical Structures and Proofs.
By Larry J. Gerstein.
Reviewed by Steven G. Krantz
Mathematical Reflections; In a Room with Many Mirrors.
By Peter Hilton, Derek Holton, and Jean Pedersen.
Reviewed by Joby Milo Anthony
Interactive Differential Equations.
By Beverly West, Steven Strogatz, Jean Marie McDill, and John Cantwell.
Reviewed by Robert L. Devaney