Book contents
- Frontmatter
- Contents
- General editors’ preface
- Editor's preface
- General introduction
- 1 Thoughts on the true estimation of living forces and assessment of the demonstrations that Leibniz and other scholars of mechanics have made use of in this controversial subject, together with some prefatory considerations pertaining to the force of bodies in general (1746–1749)
- 2 Examination of the question whether the rotation of the Earth on its axis by which it brings about the alternation of day and night has undergone any change since its origin and how one can be certain of this, which [question] was set by the Royal Academy of Sciences in Berlin as the prize question for the current year (1754)
- 3 The question, whether the Earth is ageing, considered from a physical point of view (1754)
- 4 Universal natural history and theory of the heavens or essay on the constitution and the mechanical origin of the whole universe according to Newtonian principles (1755)
- 5 Succinct exposition of some meditations on fire (1755)
- 6 On the causes of earthquakes on the occasion of the calamity that befell the western countries of Europe towards the end of last year (1756)
- 7 History and natural description of the most noteworthy occurrences of the earthquake that struck a large part of the Earth at the end of the year 1755 (1756)
- 8 Continued observations on the earthquakes that have been experienced for some time (1756)
- 9 New notes to explain the theory of the winds, in which, at the same time, he invites attendance at his lectures (1756)
- 10 Plan and announcement of a series of lectures on physical geography with an appendix containing a brief consideration of the question: Whether the West winds in our regions are moist because they travel over a great sea (1757)
- 11 New doctrine of motion and rest and the conclusions associated with it in the fundamental principles of natural science while at the same time his lectures for this half-year are announced (1758)
- 12 Review of Silberschlag's work: Theory of the fireball that appeared on 23 July 1762 (1764)
- 13 Notice of Lambert's correspondence (1782)
- 14 On the volcanoes on the Moon (1785)
- 15 Something concerning the influence of the Moon on the weather (1794)
- 16 Physical geography (1802)
- Appendix I Kant's units of measurement
- Appendix II Astronomical data for the solar system given by Kant (with conversions to English miles) and modern values for comparison
- Notes
- Glossary
- Index of names
- Index of places
- Index of subjects
Appendix I - Kant's units of measurement
Published online by Cambridge University Press: 05 November 2012
- Frontmatter
- Contents
- General editors’ preface
- Editor's preface
- General introduction
- 1 Thoughts on the true estimation of living forces and assessment of the demonstrations that Leibniz and other scholars of mechanics have made use of in this controversial subject, together with some prefatory considerations pertaining to the force of bodies in general (1746–1749)
- 2 Examination of the question whether the rotation of the Earth on its axis by which it brings about the alternation of day and night has undergone any change since its origin and how one can be certain of this, which [question] was set by the Royal Academy of Sciences in Berlin as the prize question for the current year (1754)
- 3 The question, whether the Earth is ageing, considered from a physical point of view (1754)
- 4 Universal natural history and theory of the heavens or essay on the constitution and the mechanical origin of the whole universe according to Newtonian principles (1755)
- 5 Succinct exposition of some meditations on fire (1755)
- 6 On the causes of earthquakes on the occasion of the calamity that befell the western countries of Europe towards the end of last year (1756)
- 7 History and natural description of the most noteworthy occurrences of the earthquake that struck a large part of the Earth at the end of the year 1755 (1756)
- 8 Continued observations on the earthquakes that have been experienced for some time (1756)
- 9 New notes to explain the theory of the winds, in which, at the same time, he invites attendance at his lectures (1756)
- 10 Plan and announcement of a series of lectures on physical geography with an appendix containing a brief consideration of the question: Whether the West winds in our regions are moist because they travel over a great sea (1757)
- 11 New doctrine of motion and rest and the conclusions associated with it in the fundamental principles of natural science while at the same time his lectures for this half-year are announced (1758)
- 12 Review of Silberschlag's work: Theory of the fireball that appeared on 23 July 1762 (1764)
- 13 Notice of Lambert's correspondence (1782)
- 14 On the volcanoes on the Moon (1785)
- 15 Something concerning the influence of the Moon on the weather (1794)
- 16 Physical geography (1802)
- Appendix I Kant's units of measurement
- Appendix II Astronomical data for the solar system given by Kant (with conversions to English miles) and modern values for comparison
- Notes
- Glossary
- Index of names
- Index of places
- Index of subjects
Summary
Given the plethora of units in the German-speaking part of Europe in Kant's day, it is difficult to ascertain exactly which reference standard he was using on any given occasion. We may assume, however, that for the most part he used Prussian measures.
As Kant explains in § 8 of the Physical Geography, one ‘geographical mile’ was taken as 1/15 of a degree, measured along the Earth's circumference. Therefore there are 15 × 360 = 5,400 ‘geographical miles’ in the circumference of the Earth. Taking the modern value of 7,927 English miles for the equatorial diameter of the Earth, a geographical mile is thus 4.612 English miles. This figure may be used for the purposes of comparing Kant's astronomical data with modern measurements, as is done in Appendix ii. (It will be noted that good agreement is found for the diameter of the earth, which shows that the conversion factor of 4.612 is appropriate.) Also, since 7,927 is a known modern value, we may use it to gauge the value of the eighteenth-century units of length employed by Kant, even though we may not know exactly which standard he was referring to at any particular point in his text. It may be noted, however, that according to Ronald Zupko one Rhineland foot (as used in Prussia) was equal to 12.36 English inches (or 1.030 English feet). We have, therefore, a small discrepancy, but the information is adequate to gain a reasonably accurate estimate of which standard of length Kant was using.
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- Kant: Natural Science , pp. 680 - 681Publisher: Cambridge University PressPrint publication year: 2012