Skip to main content Accessibility help
×
  1. Home
  2. Browse subjects
  3. Chemistry
  4. Chemistry: general interest
  5. Content listing

Refine search

Refine search

Access:
Content type:
Publication date:
Apply   From and To filters
Subject: Show more
Journals Show more
Publishers: Show more
Societies Show more
Series: Show more
Collections: Show more

Actions for selected content:

Select all | Deselect all
  • View selected items
  • Export citations
  • Download PDF (zip)
  • Save to Kindle
  • Save to Dropbox
  • Save to Google Drive

Save Search

You can save your searches here and later view and run them again in "My saved searches".

Please provide a title, maximum of 40 characters.
Cancel
×

559 results in Chemistry: general interest

Page 1 of 28

Conferences Held in Connection with the Special Loan Collection of Scientific Apparatus, 1876
  • Chemistry, Biology, Physical Geography, Geology, Mineralogy, and Meteorology
  • Volume 2, Chemistry, Biology, Physical Geography, Geology, Mineralogy, and Meteorology
  • Various Authors
  • Published online:
    05 June 2015
    Print publication:
    19 March 2015
    First published in:
    1876
  • In 1876 the South Kensington Museum held a major international exhibition of scientific instruments and equipment, both historical and contemporary. Many of the items eventually formed the basis of collections now held at London's Science Museum. In May 1876, organisers arranged a series of conferences at which leading British and European scientists explained and demonstrated some of the items on display. The purpose was to emphasise the exhibition's goal not merely to preserve archaic treasures (such as Galileo's telescopes or Janssen's microscope) but to juxtapose them with current technology and so inspire future scientific developments. Volume 2 of the proceedings covers chemistry, biology, and earth sciences including geology, mining, meteorology and hydrography. The contributors include Joseph Dalton Hooker, William Thiselton-Dyer, Andrew Crombie Ramsay and John Rae, all of whom have other works reissued in the Cambridge Library Collection, which also includes the full catalogue of the exhibition itself.

The Elements of Medical Chemistry
  • Embracing Only Those Branches of Chemical Science which Are Calculated to Illustrate or Explain the Different Objects of Medicine, and to Furnish a Chemical Grammar to the Author's Pharmacologia
  • John Ayrton Paris
  • Published online:
    05 November 2014
    Print publication:
    24 April 2014
  • The physician and author John Ayrton Paris (1785–1856), several of whose other medical and popular works have been reissued in the Cambridge Library Collection, published the first edition of his Pharmacologia in 1812. It was immediately successful, and went into eight further editions until 1843. The third edition, of 1820, has been reissued in this series. This book, published in 1825, was intended as a companion volume, providing a 'grammar' of chemistry for the medical student. After an imaginary dialogue on the importance of chemistry, between a provincial physician and 'the author', to whom the former is entrusting his son for his medical education, the book moves systematically from the general application of chemistry to medicine, through topics such as gravity, crystallization and electricity, to the detail of the actions of specific elements, and tables of relevant weights and measures, providing fascinating insights into the history of medical education.

Experiments and Observations on Different Kinds of Air
  • The Second Edition
  • Volume 2
  • Joseph Priestley
  • Published online:
    05 October 2014
    Print publication:
    05 September 2013
  • By the late eighteenth century, scientists had discovered certain types of gas, such as 'fixed air' (carbon dioxide), but their composition was little understood. Relatively few investigations into gases had taken place, and so the polymath Joseph Priestley (1733–1804) was able to make major breakthroughs in the field using a range of experimental techniques. While living near a brewery, he found that it was possible to outline the shape of the gas above fermenting beer with smoke, and that fire would burn with varying strength depending on the composition of the air. This three-volume collection first appeared between 1774 and 1777. Following the international interest and new discoveries prompted by the publication of its predecessor, Volume 2 - reissued here in its corrected 1776 second edition - includes accounts of further experiments, Priestley's paper on the conducting power of charcoal, and, most significantly, notes on what he calls 'dephlogisticated air' (oxygen).

Experiments and Observations on Different Kinds of Air
  • The Second Edition, Corrected
  • Volume 1
  • Joseph Priestley
  • Published online:
    05 October 2014
    Print publication:
    05 September 2013
  • By the late eighteenth century, scientists had discovered certain types of gas, such as 'fixed air' (carbon dioxide), but their composition was little understood. Relatively few investigations into gases had taken place, and so the polymath Joseph Priestley (1733–1804) was able to make major breakthroughs in the field using a range of experimental techniques. While living near a brewery, he found that it was possible to outline the shape of the gas above fermenting beer with smoke, and that fire would burn with varying strength depending on the composition of the air. This three-volume collection first appeared between 1774 and 1777. Primarily an account of Priestley's early experiments, with details of apparatus including candles and live mice, Volume 1 is reissued here in its corrected 1775 second edition and also incorporates a brief history of the field of inquiry.

Experiments and Observations on Different Kinds of Air
  • Volume 3
  • Joseph Priestley
  • Published online:
    05 October 2014
    Print publication:
    05 September 2013
  • By the late eighteenth century, scientists had discovered certain types of gas, such as 'fixed air' (carbon dioxide), but their composition was little understood. Relatively few investigations into gases had taken place, and so the polymath Joseph Priestley (1733–1804) was able to make major breakthroughs in the field using a range of experimental techniques. While living near a brewery, he found that it was possible to outline the shape of the gas above fermenting beer with smoke, and that fire would burn with varying strength depending on the composition of the air. This three-volume collection first appeared between 1774 and 1777. Priestley acknowledges that Volume 3 (1777) would more greatly interest those with technical training in the physical sciences as compared with general scholars. It also highlights some new and important inferences, notably on the function of blood in respiration.

Page 1 of 28