e-MATH
The Antikythera Mechanism II

With Java animations by Bill Casselman


This is the second of two columns on the Antikythera Mechanism. In each we examine one part of the mechanism that has special mathematical interest. Last month it was the Sun-Moon assembly; this month: the differential gear.

(Last month's web resources). More this month: The Antikythera Mechanism, along with two of the bronze sculptures found in the same shipwreck, is shown on the Hellenic Ministry of Culture page devoted to Bronzes. Web resources on differential gears include text and a good picture of the LEGO Differential from Elec 201 at Rice. See also Description of Basic Gear Types from Georgia Tech and Myths regarding diffs from Randy's Ring and Pinion Service.

1. What is a differential gear?

First some definitions from Gear Engineering. An assembly of intermeshing gears is called a train. In a simple planetary train two coaxial gears are connected by one or more similar gears ("pinions," also called "planets" or "spider gears") mounted on intermediate shafts. Those shafts are fixed to a carrier, or "turntable".

In all the diagrams in this column, the following color scheme has been followed: the two coaxial gears are purple and green, the pinions are yellow, the turntable is blue.

If all three of the principal parts (purple, green, blue) are free to rotate, the train is called a differential. In this column we will explore the functioning of differentials, and examine in particular the differential in the Antikythera mehanism.

--Tony Phillips
SUNY at Stony Brook



Comments: webmaster@ams.org
© copyright 2000, American Mathematical Society.

e-MATH SITEMAP e-MATH SEARCH ONLINE ORDERING AND CUSTOMER SERVICES WHAT'S NEW IN MATHEMATICS MEETINGS AND CONFERENCES AUTHORS AND REVIEWERS EMPLOYMENT AND CAREERS PUBLICATIONS AND RESEARCH TOOLS GOVERNMENT AFFAIRS AND EDUCATION AMS MEMBERSHIP e-MATH HOME