IF I were asked to describe the world as I see it today, I would readily give this answer: it has hardly changed since 2,200 years ago when Archimedes, the Greek mathematician and physicist, was said to have bragged that he could move the world if only he had the lever to lift it. For all his ingenuity and imagination, however, Archimedes was dead wrong on this count. He knew the power of the lever like the back of his hand, assiduously applying this knowledge to design military catapults and grappling irons; he figured out with stunning accuracy the mathematical properties of circles and spheres, including the ratio of a circle's circumference to its diameter, or what we now know as pi (3.14159265...); he began the science of hydrostatics, or the forces that govern stationary fluids, after discovering the now familiar Archimedes Principle; and he even invented the Archimedes screw, an ingenious water-raising machine still used today to irrigate fields in Egypt.

But on hindsight, we know now that Archimedes obviously exceeded his mind's grasp when he thought of lifting the world with a plank. It wouldn't have been possible even if a suitable fulcrum could be found. The world was actually (and still is) an ovaloid sphere 12,760 km in diameter, one rotating on its axis in 23 hours, 56 minutes, and 4.09 seconds and revolving around a much bigger sphere — the sun — in 365 days, 6 hours, 9 minutes, and 9.6 seconds. The object Archimedes had bragged of lifting actually has a mass in tons of about 5.98 x 10 raised to the 21st power, and a volume in cubic meters of about 1.08 x 10 raised to the 21st power — quantities too big and too mind-boggling to even think about, much less to trifle with.

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