Book contents
- Frontmatter
- NOTICE
- Contents
- INTRODUCTION
- BOOK I TERRESTRIAL ADAPTATIONS
- BOOK II COSMICAL ARRANGEMENTS
- CHAP. I The Structure of the Solar System
- CHAP. II The Circular Orbits of the Planets round the Sun
- CHAP. III The Stability of the Solar System
- CHAP. IV The Sun in the Centre
- CHAP. V The Satellites
- CHAP. VI The Stability of the Ocean
- CHAP. VII The Nebular Hypothesis
- CHAP. VIII The Existence of a Resisting Medium in the Solar System
- CHAP. IX Mechanical Laws
- CHAP. X The Law of Gravitation
- CHAP. XI The Laws of Motion
- CHAP. XII Friction
- BOOK III RELIGIOUS VIEWS
CHAP. II - The Circular Orbits of the Planets round the Sun
from BOOK II - COSMICAL ARRANGEMENTS
Published online by Cambridge University Press: 05 August 2011
- Frontmatter
- NOTICE
- Contents
- INTRODUCTION
- BOOK I TERRESTRIAL ADAPTATIONS
- BOOK II COSMICAL ARRANGEMENTS
- CHAP. I The Structure of the Solar System
- CHAP. II The Circular Orbits of the Planets round the Sun
- CHAP. III The Stability of the Solar System
- CHAP. IV The Sun in the Centre
- CHAP. V The Satellites
- CHAP. VI The Stability of the Ocean
- CHAP. VII The Nebular Hypothesis
- CHAP. VIII The Existence of a Resisting Medium in the Solar System
- CHAP. IX Mechanical Laws
- CHAP. X The Law of Gravitation
- CHAP. XI The Laws of Motion
- CHAP. XII Friction
- BOOK III RELIGIOUS VIEWS
Summary
The orbit which the earth describes round the sun is very nearly a circle: the sun is about one thirtieth nearer to us in winter than in summer. This nearly circular form of the orbit, on a little consideration, will appear to be a remarkable circumstance.
Supposing the attraction of a planet towards the sun to exist, if the planet were put in motion in any part of the solar system, it would describe about the sun an orbit of some kind; it might be a long oval, or a shorter oval, or an exact circle. But if we suppose the result left to chance, the chances are infinitely against the last mentioned case. There is but one circle; there are an infinite number of ovals. Any original impulse would give some oval, but only one particular impulse, determinate in velocity and direction, will give a circle. If we suppose the planet to be originally projected, it must be projected perpendicularly to its distance from the sun, and with a certain precise velocity, in order that the motion may be circular.
In the basin to which we have compared the solar system, the adjustment requisite to produce circular motion would require us to project our pellet so that after running half round the surface it should touch a point exactly at an equal distance from the centre, on the other side, passing neither too high nor too low.
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- Publisher: Cambridge University PressPrint publication year: 2009First published in: 1833