Biology, Pages 58-67 |
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Page 6
By the early 19th century , chemists had learned to make many simple
compounds in the laboratory by combining elements under the right conditions .
Artificial synthesis of the complex molecules extracted from living matter seemed
...
By the early 19th century , chemists had learned to make many simple
compounds in the laboratory by combining elements under the right conditions .
Artificial synthesis of the complex molecules extracted from living matter seemed
...
Page 8
Chemists began to chip away at the foundation of vitalism when they learned to
synthesize organic compounds in their laboratories . In 1828 , Friedrich Wöhler ,
a German chemist who had studied with Berzelius , attempted to make an ...
Chemists began to chip away at the foundation of vitalism when they learned to
synthesize organic compounds in their laboratories . In 1828 , Friedrich Wöhler ,
a German chemist who had studied with Berzelius , attempted to make an ...
Page 19
... is the source of carbon for all the organic molecules found in organisms .
Another relatively simple molecule is urea , CO ( NH2 ) 2 . This is the organic
compound found in urine that Wöhler 61 learned to synthesize in the early 19th
century .
... is the source of carbon for all the organic molecules found in organisms .
Another relatively simple molecule is urea , CO ( NH2 ) 2 . This is the organic
compound found in urine that Wöhler 61 learned to synthesize in the early 19th
century .
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acid Activity addition adenosine amino animal Appendix arise arrangement asymmetric attached basis biological body branch called carbon and hydrogen carbon atom carbon compounds carbon dioxide carbon skeleton carboxyl cell Chapter characteristic chemical complex components Concept contains covalent bonds cyanate Determine dissolve distinctive diversity double bonds drug early Earth effective electrons elements enantiomers energy example fat molecules female Figure force foundation four fuel functional groups geometric isomers groups of atoms hydrocarbons hydrogen hydroxyl Important inorganic joined L-Dopa laboratory learned living matter living organisms major male molecular architecture nitrogen organic chemistry organic compounds organic molecules origin oxygen Parkinson's disease patients phosphate phosphate group possible present produce properties Proteins release rings shape share shell shows single skeletons of organic structural formula structural isomers study of carbon sulfhydryl synthesis term thalidomide urea valence variations versatility vitalism Wöhler