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Serendipity In Science

Most scientists accept the notion that serendipity plays a major role in their work. Too many discoveries have been, after all, the result of 'lucky accidents.' In the 16th century, for example, scalding with oil of elder was the preferred treatment for gunshot wounds. French physician Ambroise Pare learned otherwise when, after running out of oil ...

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SerendipityInScience
Mathematics

What Are Squares And Square Roots?

The mathematical term 'square' comes from the two-dimensional shape of the same name. A square shape has the two dimensions of length and width, both exactly the same and at angles of 90 to each ... Continue reading

SquaresAndSquareRoots
Mathematics

Picture This

What 3 dimensional shape will pass through a rectangle, triangle and circle each time filling the whole space? The answer may surprise you in it's simplicity. Before I tell you what it is, see if you ... Continue reading

PictureThis
Science

Inventor: George Washington Carver

George Washington Carver, born a slave in 1864 (approximately), contributed significantly to agricultural research. Although he was orphaned as an infant, endured hardship in pursuit of his education, ... Continue reading

GeorgeWashingtonCarver
Biology

Batesian Mimicry

If you ever got stung by a wasp you would probably avoid all flying insects which resemble the brightly-colored yellow and black wasp. If you were a bird and certain types of butterflies gave you a ... Continue reading

BatesianMimicry

Eratosthenes Measured Earth’s Circumference—Centuries Before Columbus Sailed

EratosthenesEarthCircumferenceEratosthenes (c. 276 – 194 BC) was born more than 2200 years ago in the Greek city of Cyrene, now a city in the North African country of Libya. (The Greek Empire surrounded much of the Mediterranean Sea and included present day Greece, Turkey, the Middle East, and regions of northern Africa.) As a teen, Eratosthenes (air-uh-TOS-thuh-neez) was sent to Athens where he received the equivalent of a university education. Eventually, he solved problems and published works on geography, math and geometry, philosophy, and literature. At the age of 30, Eratosthenes was summoned to Alexandria by King Ptolemy III to tutor his son and to begin work at the great library at the Greek museum. Alexandria, now in Egypt, was the important city at the mouth of the Nile River. The museum was a center of learning, somewhat similar to today’s university research centers. Eratosthenes eventually became chief librarian.

At least 100 years before Eratosthenes was born, it was known that the earth was round. Observations supporting a spherical earth were recorded by Aristotle (384– 322 BC) in the fourth century BC. Eratosthenes knew this and wanted to measure earth’s circumference. Since no one could walk or sail around the earth, Eratosthenes realized he would have to somehow deduce earth’s circumference from observations he could make. He had learned, perhaps from travelers, that due south of Alexandria in the city of Syene (SI-ee-nee), now Aswan, Egypt, that at noon on the summer solstice, no shadows were cast. One could look down a well in the city and see the sunlight reflected straight back. No shadows formed on the walls of the well. But due north in Alexandria, shadows were always cast. Eratosthenes realized he could measure the angle of a shadow cast in Alexandria at the summer solstice then use geometry concepts of parallel lines and congruent angles to calculate earth’s circumference.

The angle of the shadow cast in Alexandria would be congruent to the angle at earth’s center between Syene and Alexandria. This angle was measured to be about 1/50 of a complete circle. Now Eratosthenes just needed to know the distance between Syene and Alexandria to set up a mathematical ratio to compute earth’s circumference. This is where the greatest error was introduced since the ancient Greeks had no accurate way to measure distances. Nevertheless, Eratosthenes was able to closely estimate earth’s circumference. Depending on the conversion factors used, Eratosthenes measured earth to be from 25,000 to 28,900 miles around. Today the accepted circumference of earth is 24,903 miles/40,075 km. Columbus used maps drawn by later Greeks which showed the earth to be much smaller. If he had used Eratosthenes’ measurements, he would have expected his travels to the West Indies to have been much further and perhaps would never have undertaken such a long journey!