**Playing Ball in a Space Station**

Andrew J. Simoson

334-343

How does artificial gravity affect the path of a thrown ball? This paper contrasts ball trajectories on the Little Prince's asteroid planet B-612 and Arthur C. Clarke's rotating-drum spacecraft of 2001, and demonstrates curve balls with multiple loops in the latter environment.

**An Exceptional Exponential Function**

Branko Curgus

344-354

We show that there is a link between a standard calculus problem of finding the best view of a painting and special tangent lines to the graphs of exponential functions. Surprisingly, the exponential function with the "best view" is not the one with the base *e*. A similar link is established for families of functions obtained by composing exponential functions with a fixed linear function. The key tool in the proof is the Lambert W function.

**More Designer Decimals: The Integers and their Geometric Extensions**

O-Yeat Chan and James Smoak

355-363

The fraction 10000/9801 has an intriguing decimal expansion, namely 1.02030405... In this paper, we investigate the properties of this fraction via an arithmetical approach. The approach also yields a class of fractions whose decimal expansions involve higher-dimensional analogues of the integers, the *n*-dimensional pyramidal numbers, thereby showing both arithmetic and geometric connections.

**The Divergence of Balanced Harmonic-like Series**

Carl V. Lutzer and James E. Marengo

364-369

Consider the series where the value of each *a _{n}* is determined by the flip of a coin: heads on the

**An Interview with H. W. Gould**

Scott H. Brown

370-379

In this interview, one of the world's foremost combinatorialists, H.W. Gould, shares some of the experiences of his early life as well as his lengthy career of more than forty-seven years at the University of West Virginia.

**Fallacies, Flaws, and Flimflam**

Ed Barbeau, editor

380-384

**CAPSULES**

Ricardo Alfaro and Steven Althoen, editors

385-391

**Another Look at Some p-Series**

Ethan Berkove

385-386

A geometric construction is provided that simultaneously shows why the p-series diverges for *p* = 1, yet converges for *p* = 2 and 3.

**Summing Cubes by Counting Rectangles**

Arthur T. Benjamin, Jennifer L. Quinn, and Calyssa Wurtz

387-389

The starting point of this capsule is counting the number of rectangles in an *m* × *n* checkerboard (with a neat four-line derivation). From this, the formula for the sum of the first *n* cubes of positive integers and other results are derived..

**The Converse of Viviani's Theorem**

Zhibo Chen and Tian Liang

390-391

Viviani's Theorem, discovered over 300 years ago, states that inside an equilateral triangle, the sum of the perpendicular distances from a point *P* to the three sides is independent of *P*. In this capsule Chen and Liang establish its converse in a stronger version.