User:Anthony.Sebastian/JP: Difference between revisions

Revision as of 16:17, 29 March 2012

Text

Joseph Priestley (1733-1804), an English scientist who discovered the component gas of the atmosphere subsequently named oxygen by the French chemist, Antoine-Laurent Lavoisier (1743-1794), whose learning of Priestley experiments critically influenced the future course of Lavoisier's career as a chemist that led to a revolution in the principles of chemistry, the beginnings of modern chemistry—a new understanding of chemical science that contributed importantly in enabling the Englishman, John Dalton (1766-1844), to formulate a chemical atomic theory, the bedrock of modern chemistry.^[1]^{[Note 1]}^{[Note 2]}

Notes

Included among the Notes below are annotations to some of the references.

↑
Ref: Jackson J. (2005): Full biographies of Joseph Priestley and Antoine Laurent Lavoisier.
- Chapter titles: Prologue: God in the air. The cloth-dresser's son. The sums and receipts of parallel worlds. The gas in the beer. The prodigy. The goodness of air. The problem of burning. The sentimental journey. The mouse in the jar. The twelve days. The language of war. "King Mob". The world out of joint. The new world. Epilogue: the burning world.
- See review of Jackson's book in American Scientist: A Tale of Two Chemists by Seymour Mauskopf.
- Joe Jackson Homepage
↑ Cite error: Invalid <ref> tag; no text was provided for refs named ebowebsearch

References

↑ Jackson J. (2005) A World on Fire: A Heretic, an Aristocrat, and the Race to Discover Oxygen. New York: Viking. ISBN 0670034347; Penguin USA About Book. ISBN 9780143038832. | Google Books preview.

[jackson2005a-2] Ref: Jackson J. (2005): Full biographies of Joseph Priestley and Antoine Laurent Lavoisier.
Chapter titles: Prologue: God in the air. The cloth-dresser's son. The sums and receipts of parallel worlds. The gas in the beer. The prodigy. The goodness of air. The problem of burning. The sentimental journey. The mouse in the jar. The twelve days. The language of war. "King Mob". The world out of joint. The new world. Epilogue: the burning world.

See review of Jackson's book in American Scientist: A Tale of Two Chemists by Seymour Mauskopf.

Joe Jackson Homepage

[2] Chapter titles: Prologue: God in the air. The cloth-dresser's son. The sums and receipts of parallel worlds. The gas in the beer. The prodigy. The goodness of air. The problem of burning. The sentimental journey. The mouse in the jar. The twelve days. The language of war. "King Mob". The world out of joint. The new world. Epilogue: the burning world.

[3] See review of Jackson's book in American Scientist: A Tale of Two Chemists by Seymour Mauskopf.

[4] Joe Jackson Homepage

[ebowebsearch-3] Cite error: Invalid <ref> tag; no text was provided for refs named ebowebsearch

[jackson2005-1] Jackson J. (2005) A World on Fire: A Heretic, an Aristocrat, and the Race to Discover Oxygen. New York: Viking. ISBN 0670034347; Penguin USA About Book. ISBN 9780143038832. | Google Books preview.

[1]

[Note 1]

[Note 2]

@@ Line 1: / Line 1: @@
 ==Text==
-<b>Joseph Priestley</b> (1733-1804), an English scientist who discovered the component gas of the atmosphere subsequently named [[oxygen]] by the French chemist, [[Antoine-Laurent Lavoisier]] (1743-1794), whose learning of Priestley experiments critically influenced the future course of Lavoisier's career as a chemist that led to a revolution in the principles of chemistry, the beginnings of modern chemistry&mdash;a new understanding of chemical science that contributed importantly in enabling the Englishman, [[John Dalton]] (1766-1844), to formulate a chemical [[Atomic hypothesis|atomic theory]], the bedrock of modern chemistry.<ref name=jackson2005/><ref name=jackson2005a group=Note/>
+<b>Joseph Priestley</b> (1733-1804), an English scientist who discovered the component gas of the atmosphere subsequently named [[oxygen]] by the French chemist, [[Antoine-Laurent Lavoisier]] (1743-1794), whose learning of Priestley experiments critically influenced the future course of Lavoisier's career as a chemist that led to a revolution in the principles of chemistry, the beginnings of modern chemistry&mdash;a new understanding of chemical science that contributed importantly in enabling the Englishman, [[John Dalton]] (1766-1844), to formulate a chemical [[Atomic hypothesis|atomic theory]], the bedrock of modern chemistry.<ref name=jackson2005/><ref name=jackson2005a group=Note/><ref name=ebowebsearch group=Note/>
 ==Notes==

User:Anthony.Sebastian/JP: Difference between revisions

Revision as of 16:17, 29 March 2012

Text

Notes

References

Navigation menu

Search