## The History and Practice of Ancient AstronomyThe History and Practice of Ancient Astronomy combines new scholarship with hands-on science to bring readers into direct contact with the work of ancient astronomers. While tracing ideas from ancient Babylon to sixteenth-century Europe, the book places its greatest emphasis on the Greek period, when astronomers developed the geometric and philosophical ideas that have determined the subsequent character of Western astronomy. The author approaches this history through the concrete details of ancient astronomical practice. Carefully organized and generously illustrated, the book can teach readers how to do real astronomy using the methods of ancient astronomers. For example, readers will learn to predict the next retrograde motion of Jupiter using either the arithmetical methods of the Babylonians or the geometric methods of Ptolemy. They will learn how to use an astrolabe and how to design sundials using Greek and Roman techniques. The book also contains supplementary exercises and patterns for making some working astronomical instruments, including an astrolabe and an equatorium. More than a presentation of astronomical methods, the book provides a critical look at the evidence used to reconstruct ancient astronomy. It includes extensive excerpts from ancient texts, meticulous documentation, and lively discussions of the role of astronomy in the various cultures. Accessible to a wide audience, this book will appeal to anyone interested in how our understanding of our place in the universe has changed and developed, from ancient times through the Renaissance. |

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#### LibraryThing Review

»ç¿ëÀÚ ¸®ºä - benjfrank - LibraryThingI have a pre-publication photocopy that I bought and made into a 3-volume set when I took Professor Evans' ancient astronomy class at Univ of Puget Sound in the mid1980s. I still remember making the sundials and celestial spheres -- the latter I still have in a box somewhere! ÀüÃ¼ ¸®ºä ÀÐ±â

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The Birth of Astronomy | 3 |

The Celestial Sphere | 75 |

Used Tables | 96 |

Some Applications of Spherics | 129 |

Calendars and Time Reckoning | 163 |

Solar Theory | 205 |

The Fixed Stars | 245 |

Planetary Theory | 289 |

Patterns for Models | 445 |

Notes | 453 |

465 | |

473 | |

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Alexandria Almagest altitude ancient angle angular apogee Arabic Aristarchus Aristotle armillary sphere astrolabe axis Babylonian Brahe calculation celestial sphere column constellations Copernicus Copernicus's cosmology cosmos cycle deferent circle diameter distance eccentricity ecliptic epicycle epicyclic anomaly equant equant point equation of center equatorium equinoctial equinox Eudoxus Eudoxus's example figure Geminus globe gnomon Greek astronomy Gregorian Hipparchus Hipparchus's horizon Julian calendar Julian day number Jupiter Kepler latitude length Mars mathematical mean longitude mean Sun measured medieval Mercury meridian method month Moon Moon's morning rising moves MUL.APIN noon obliquity observations opposition orbit parallax parapegma period Phenomena physical planetary theory position precession Ptolemy Ptolemy's radius retrograde arcs retrograde motion risings and settings rotation Saturn seasonal hours second century B.C. signs solar theory Spica summer solstice Sun's sundial superior planets synodic arc synodic periods Theon of Smyrna translation tropical Venus visible zodiac