Edmond Halley and Newton’s Principia

1991 ◽  
Vol 45 (2) ◽  
pp. 129-138
Keyword(s):  
History Of Science ◽  
Royal Society ◽  
Physical Science ◽  
Public History ◽  
Elliptical Orbit ◽  
The Sun ◽  
The Public ◽  
Inverse Square Law ◽  
History Of ◽  
Third Law

Halley’s part in the conception, development, printing and publication of the Principia , as seen from Newton’s side, is well known and well documented,1 and to that I have nothing to add. Without Halley, the stimulus, the critic, the supporter, editor and publisher, there would have been no Principia , or at least no published Principia as we now have it. Newton would probably have remained in relative obscurity in Cambridge and be known to us for his mathematics and optics but perhaps not as an outstanding figure in the history of science. Without Halley we should not have had Newton’s grand conception of how physical science should be pursued, the conception that still guides us. Although well established, the public history of still raises questions. It runs as follows. In the evening of 24 January 1684, at the Royal Society, Wren, Hooke and Halley discussed Halley’s demonstration that Kepler’s third law implied that the attraction of the Sun upon the planets was as the inverse of the square of the distance from them, and Wren offered to give books to the value of 40 shillings to whomever of Hooke and Halley could first show (before the end of March) that the inverse square law led to an elliptical orbit. March came and went. Wren’s books were not claimed, but not until August did Halley call on Newton in Cambridge. Why so long a delay? All three seem to have appreciated that the question was very important, but more than four months passed from the end of March before Halley went to Cambridge. Hooke would hardly have admitted his failure by asking Newton, and Wren was no doubt much occupied with building St Paul’s and otherwise, but Halley might surely have gone at his first opportunity. In fact it seems that he did.

George Gabriel Stokes

2019 ◽  
Keyword(s):  
Fluid Dynamics ◽  
History Of Science ◽  
Mathematical Analysis ◽  
Royal Society ◽  
Science And Religion ◽  
Cambridge University ◽  
Public Servant ◽  
History Of ◽  
The Many ◽  
Natural Philosophers

George Gabriel Stokes was one of the most significant mathematicians and natural philosophers of the nineteenth century. Serving as Lucasian professor at Cambridge he made wide-ranging contributions to optics, fluid dynamics and mathematical analysis. As Secretary of the Royal Society he played a major role in the direction of British science acting as both a sounding board and a gatekeeper. Outside his own area he was a distinguished public servant and MP for Cambridge University. He was keenly interested in the relation between science and religion and wrote extensively on the matter. This edited collection of essays brings together experts in mathematics, physics and the history of science to cover the many facets of Stokes’s life in a scholarly but accessible way.

XXIII. On the water-barometer erected in the hall of the Royal Society

1832 ◽  
Vol 122 ◽  
pp. 539-574 ◽  
Keyword(s):  
Royal Society ◽  
Physical Science ◽  
The Other ◽  
Metallic Tube ◽  
French Academy ◽  
History Of ◽  
The Subject ◽  
The Common ◽  
Academy Of Sciences ◽  
Made In

I have for some time entertained an opinion, in common with some others who have turned their attention tot he subject, that a good series of observations with a Water-Barometer, accurately constructed, might throw some light upon several important points of physical science: amongst others, upon the tides of the atmosphere; the horary oscillations of the counterpoising column; the ascending and descending rate of its greater oscillations; and the tension of vapour at different atmospheric temperatures. I have sought in vain in various scientific works, and in the Transactions of Philosophical Societies, for the record of any such observations, or for a description of an instrument calculated to afford the required information with anything approaching to precision. In the first volume of the History of the French Academy of Sciences, a cursory reference is made, in the following words, to some experiments of M. Mariotte upon the subject, of which no particulars appear to have been preserved. “Le même M. Mariotte fit aussi à l’observatoire des experiences sur le baromètre ordinaire à mercure comparé au baromètre à eau. Dans l’un le mercure s’eléva à 28 polices, et dans Fautre l’eau fut a 31 pieds Cequi donne le rapport du mercure à l’eau de 13½ à 1.” Histoire de I'Acadérmie, tom. i. p. 234. It also appears that Otto Guricke constructed a philosophical toy for the amusement of himself and friends, upon the principle of the water-barometer; but the column of water probably in this, as in all the other instances which I have met with, was raised by the imperfect rarefaction of the air in the tube above it, or by filling with water a metallic tube, of sufficient length, cemented to a glass one at its upper extremity, and fitted with a stop-cock at each end; so that when full the upper one might be closed and the lower opened, when the water would fall till it afforded an equipoise to the pressure of the atmo­sphere. The imperfections of such an instrument, it is quite clear, would render it totally unfit for the delicate investigations required in the present state of science; as, to render the observations of any value, it is absolutely necessary that the water should be thoroughly purged of air, by boiling, and its insinuation or reabsorption effectually guarded against. I was convinced that the only chance of securing these two necessary ends, was to form the whole length of tube of one piece of glass, and to boil the water in it, as is done with mercury in the common barometer. The practical difficulties which opposed themselves to such a construction long appeared to me insurmount­able; but I at length contrived a plan for the purpose, which, having been honoured with the approval of the late Meteorological Committee of this Society, was ordered to be carried into execution by the President and Council.

Welcome and introduction

1989 ◽  
Vol 43 (2) ◽  
pp. 95-96
Keyword(s):  
Advisory Committee ◽  
History Of Science ◽  
Royal Society ◽  
Science And Technology ◽  
Imperial College ◽  
Joint Meeting ◽  
Emeritus Professor ◽  
History Of ◽  
The Many ◽  
The University

It is my pleasant duty to welcome you all most warmly to this meeting, which is one of the many events stimulated by the advisory committee of the William and Mary Trust on Science and Technology and Medicine, under the Chairmanship of Sir Arnold Burgen, the immediate past Foreign Secretary of the Royal Society. This is a joint meeting of the Royal Society and the British Academy, whose President, Sir Randolph Quirk, will be Chairman this afternoon, and it covers Science and Civilization under William and Mary, presumably with the intention that the Society would cover Science if the Academy would cover Civilization. The meeting has been organized by Professor Rupert Hall, a Fellow of the Academy and also well known to the Society, who is now Emeritus Professor of the History of Science and Technology at Imperial College in the University of London; and Mr Norman Robinson, who retired in 1988 as Librarian to the Royal Society after 40 years service to the Society.

Reflections on the Public Interpretation of Regional Environmental History In Western Pennsylvania

2014 ◽  
Vol 36 (3) ◽  
pp. 50-69
Author(s):  
Chris J. Magoc
Keyword(s):  
Environmental History ◽  
Public History ◽  
Industrial Development ◽  
The Public ◽  
Public Interpretation ◽  
The Past ◽  
Natural Resource Extraction ◽  
History Of ◽  
Environmental Histories ◽  
Western Pennsylvania

This essay attempts to counter the scarcity of efforts to address issues of natural resource extraction and environmental exploitation in public history forums. Focused on western Pennsylvania, it argues that the history of industrial development and its deleterious environmental impacts demands a regional vision that not only frames these stories within the ideological and economic context of the past, but also challenges residents and visitors to consider this history in light of the related environmental concerns of our own time. The essay explores some of the difficult issues faced by public historians and practitioners as they seek to produce public environmental histories that do not elude opportunities to link past and present in meaningful ways.

scholarly journals Robert Hooke, F. R. S. (1635-1703)

1960 ◽  
Vol 15 (1) ◽  
pp. 137-145 ◽  
Keyword(s):  
History Of Science ◽  
Royal Society ◽  
Robert Hooke ◽  
Hooke’S Law ◽  
Hooke's Law ◽  
History Of ◽  
New Instruments

The period which saw the foundation of the Royal Society is rich in names remarkable for original achievement in the field of science, but, if we except Newton—and his first paper appeared eleven years after the foundation of the Society which is now being celebrated—none is more noteworthy than Robert Hooke. Without any advantages of birth or influence, poor in health and poor, as a young man, in worldly goods, he carried out work of the first importance in most branches of science then known, and of one branch, meteorology, he may claim to be the founder. Not only was he outstanding as an experimenter and as the inventor of new instruments, but he had an informed imagination which led him to astonishingly correct anticipations of many advances subsequently to be made. Although to many his name is known only through Hooke’s Law, outstanding figures in the history of science have been loud in his praises. Thomas Young wrote of the ‘inexhaustible but neglected mines of nascent inventions, the works of the great Robert Hooke’, a most apt phrase, since Hooke’s work contains so much that is suggestive and original, which his restless spirit lacked time to develop.

Long-Term Ecological Research Over the Long Term: A Historian’s Perspective

2016 ◽  
Author(s):  
Christopher Hamlin
Keyword(s):  
History Of Science ◽  
Social Relations ◽  
Environmental Research ◽  
Ecological Research ◽  
The Public ◽  
The Social ◽  
Long Term Ecological Research ◽  
History Of ◽  
Ecological Science

There are many precedents for long-term research in the history of science. Long-Term Ecological Research (LTER) program’s current identity reflects significant change—intended and accidental, both consensual and conflictual—from research concerns that were prevalent in the 1980s. LTER program has pioneered modes of research organization and professional norms that are increasingly prominent in many areas of research and that belong to a significant transformation in the social relations of scientific research. The essays in this volume explore the impact of the LTER program, a generation after its founding, on both the practice of ecological science and the careers of scientists. The authors have applied the agenda of long- term scrutiny to their own careers as LTER researchers. They have recognized the LTER program as distinct, even perhaps unique, both in the ways that it creates knowledge and in the ways that it shapes careers. They have reflected on how they have taught (and were taught) in LTER settings, on how they interact with one another and with the public, and on how research in the LTER program has affected them “as persons.” A rationale for this volume is LTER’s distinctiveness. In many of the chapters, and in other general treatments of the LTER program, beginning with Callahan (1984), one finds a tone of defensiveness. Sometimes the concerns are explicit: authors (e.g., Stafford, Knapp, Lugo, Morris; Chapters 5, 22, 25, 33, respectively) bemoan colleagues who dismiss LTER as mere monitoring instead of serious science or who resent LTER’s independent funding stream. But more broadly, there is concern that various groups, ranging from other bioscientists to the public at large, may not appreciate the importance of long-term, site-specific environmental research. Accordingly, my hope here is to put LTER into several broader contexts. I do so in three ways. First, to mainstream LTER within the history of science, I show that the LTER program is not a new and odd way of doing science but rather exemplifies research agendas that have been recognized at least since the seventeenth century in the biosciences and beyond.

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