Kepler's Physical Astronomy

Name: Kepler's Physical Astronomy
Brand: Princeton University Press
SKU: 9780691036526
Price: 70.99 EUR
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Product variants

A01=Bruce Stephenson

Apsis

Astronomer

Astronomia nova

Astronomical object

Astronomy

Author_Bruce Stephenson

Axial precession

Axial tilt

Calculation

Category=PDX

Category=PG

Category=PHVB

Celestial mechanics

Circular orbit

Circular sector

Circumference

Conchoid (mathematics)

Conjunction (astronomy)

Copernican heliocentrism

Copernican principle

De revolutionibus orbium coelestium

Earth's orbit

Eccentric anomaly

Ecliptic

Elliptic orbit

Epitome Astronomiae Copernicanae

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eq_isMigrated=1

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_science

Equant

Equation of time

Evection

Exoplanet

Explanation

Geocentric model

Harmonices Mundi

Heliocentrism

Hypothesis

Inferior and superior planets

Infinitesimal

Jeremiah Horrocks

Johannes Kepler

Kepler's equation

Kepler's laws of planetary motion

Libration

Libration (molecule)

Longitude

Lunar theory

Mean anomaly

Mean free path

Mean motion

Modern physics

Mysterium Cosmographicum

Newton's law of universal gravitation

Orbit

Orbit of Mars

Orbital plane (astronomy)

Perihelion and aphelion

Planet

Planetary body

Proper motion

Proportionality (mathematics)

Quantity

Right ascension

Rotation period

Rudolphine Tables

Solar radius

Solar rotation

Solar time

Spherical astronomy

Summation

Theoretical physics

Theory

Thomas Kuhn

True anomaly

Tychonic system

Versine

Product details

ISBN 9780691036526
Weight: 340g
Dimensions: 197 x 254mm
Publication Date: 25 Jul 1994
Publisher: Princeton University Press
Publication City/Country: US
Product Form: Paperback

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From Hipparchus and Ptolemy in the ancient world, through Copernicus and Brahe in the sixteenth century, astronomers had used geometrical models to give a kinematic account of the movements of the sun, moon, and planets. Johannes Kepler revolutionized this most ancient of sciences by being the first to understand astronomy as a part of physics. By closely and clearly analyzing the texts of Kepler's great astronomical works, in particular the Astronomia nova of 1609, Bruce Stephenson demonstrates the importance of Kepler's physical principles--principles now known to be "incorrect"--in the creation of his first two laws of planetary motion.

Bruce Stephenson is a visiting scholar at the University of Chicago.