MATHEMATICAL METHODS IN HELLENISTIC TIMES The Hellenistic Period

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MATHEMATICAL METHODS IN HELLENISTIC TIMES

MATHEMATICAL METHODS IN HELLENISTIC TIMES

The Hellenistic Period In this brief section, we show what type of problems mathematicians

The Hellenistic Period In this brief section, we show what type of problems mathematicians solved, and the extent of Greek Mathematics before the collapse of the mathematical world in about 400 C. E.

EUDOXUS He is famous in his works in ratios and methods of exhaustion. He

EUDOXUS He is famous in his works in ratios and methods of exhaustion. He is responsible in turning the astronomy into a mathematical science. He is the inventor of the “two-sphere model”, the modifications for the various motions of the sun, moon and planets.

APOLLONIUS He proposed the following solution: - Place the center of the sun’s orbit

APOLLONIUS He proposed the following solution: - Place the center of the sun’s orbit at a point (called the eccenter) displayed away from the earth. If the sun moves uniformly around the new circle (called the deferent circle), an observer on earth will see more than a quarter of the circle against the spring quadrant (the upper right) than the summer quadrant (the upper left). The distance of ED or better the ratio of ED to DS is known as the eccentricity of the deferent.

HIPPARCHUS AND THE BEGINNING OF TRIGONOMETRY He carried out numerous observations of planetary positions,

HIPPARCHUS AND THE BEGINNING OF TRIGONOMETRY He carried out numerous observations of planetary positions, introduced a coordinate system for the stellar sphere, the tabulation of trigonometric ratios. System Coordinate - To deal with the positions of the stars and planets, one needs both a unit of measure for arcs and angles, as well as, a method of specifying where a particular body is located on the celestial sphere.

 He adopted the division of the circumference of the circle into 360 parts

He adopted the division of the circumference of the circle into 360 parts (degrees), along with the sexagisimal division of degrees into minutes and seconds. He also used arcs of 1/24 of a circle (steps) and 1/48 of a circle (half-steps). Babylonians first introduced coordinates into the sky is also known as the Ecliptic System. The coordinate along the ecliptic is called the longitude. The coordinate perpendicular is called the latitude.

 The basic element in Hipparchus’ trigonometry was the chord subtending a given arc

The basic element in Hipparchus’ trigonometry was the chord subtending a given arc (or central angle) in a circle of fixed radius.

 Hipparchus used the same measure for the radius of the circle. circumference =

Hipparchus used the same measure for the radius of the circle. circumference = 2πR, π the sexagisimal approximation 3; 8, 30 He calculated the radius R as 60 x 360/ 2π = 6, 0, 0/6; 17 = 57, 18 = 3438’ In a circle of radius, the measure of an angle (length cut-off on the circumference divided by the radius) equals its radian measure.

 To calculate the table of chords, he began with a 60˚ angle. Crd(α)

To calculate the table of chords, he began with a 60˚ angle. Crd(α) = Crd (60) = 3438’ = 57, 18 90˚ angle Chord is equal to R√ 2 = 4862’ = 81, 2 To calculate of the other angles, he used two geometric results, crd (180 -α) = √(2 R)^2 – crd^2(α)

PTOLEMY AND THE ALMAGEST Claudius Ptolemy - He made numerous observations of the heavens

PTOLEMY AND THE ALMAGEST Claudius Ptolemy - He made numerous observations of the heavens from locations near Alexandria and wrote several important books. - Mathematiki Syntaxis (Mathematical Collection), a work in 13 books that contained a complete mathematical description of the Greek model of the universe with parameters for the various motions of the sun, moon and planets.

 Chords Tables - To construct the tables of chords of all arcs from

Chords Tables - To construct the tables of chords of all arcs from 1/2˚ to 180˚ (intervals of 1/2˚) he took R = 60 First calculation established the chord of 36˚ namely, the length of decagon inscribed in a circle.

ROMAN MATHEMATICS Cicero admitted that Romans were not interested in Mathematics. Vitruvius - He

ROMAN MATHEMATICS Cicero admitted that Romans were not interested in Mathematics. Vitruvius - He wrote the book “On Architecture”, architects needed comprehensive liberal education (draftsmanship to astronomy). - Geometry offers many aids to architecture.

 Lucius Columella - Roman Gentleman Farmer - He wrote that one deals with

Lucius Columella - Roman Gentleman Farmer - He wrote that one deals with fields needs to be able to work out areas. Basic Formulas (area of squares, rectangles, triangles, circles) including the use of (1/3 + 1/10) s^2 for the area of triangle of side s, 22/7 = π and A = ½ (b + h)h + 1/14 (D/2)^2 for the area of a circle segment of base b and height h.