Biology, Pages 58-67 |
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Page 13
Instead , a ? carbon atom usually completes its valence shell by sharing its 4 electrons with other atoms in covalent bonds so that 8 electrons are present . Each carbon atom thus acts as an 915 75 intersection point from which a ...
Instead , a ? carbon atom usually completes its valence shell by sharing its 4 electrons with other atoms in covalent bonds so that 8 electrons are present . Each carbon atom thus acts as an 915 75 intersection point from which a ...
Page 18
es carbon dioxide molecule ( CO2 ) , a single carbon atom is joined to two atoms of oxygen by double covalent bonds . The structural formula for CO2 is shown here : O = C = 0 Each line in a structural formula represents a pair of shared ...
es carbon dioxide molecule ( CO2 ) , a single carbon atom is joined to two atoms of oxygen by double covalent bonds . The structural formula for CO2 is shown here : O = C = 0 Each line in a structural formula represents a pair of shared ...
Page 20
o H Н C H NIH 2 - H Urea Again , each atom has the required number of covalent bonds . In this case , one carbon atom is involved in both single and double bonds . Both urea and carbon dioxide are molecules with only one carbon atom .
o H Н C H NIH 2 - H Urea Again , each atom has the required number of covalent bonds . In this case , one carbon atom is involved in both single and double bonds . Both urea and carbon dioxide are molecules with only one carbon atom .
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acid Activity addition amino animal Appendix arise arrangement attached biological body bonding to four branch called carbon and hydrogen carbon atom carbon compounds carbon dioxide carbon skeleton carbonyl cell Chapter chemical complex components Concept contains covalent bonds Determine distinctive distinguish diversity double bonds drug early Earth effective electrons elements enantiomers energy example fat molecules female Figure foundation four fuel functional groups geometric isomers groups of atoms helped hydrocarbons hydrogen hydroxyl Important inorganic involved joined L-Dopa laboratory learned living matter living organisms major male molecular molecular architecture nitrogen organic chemistry organic compounds organic molecules oxygen Parkinson's disease phosphate phosphate group possible present produce properties Proteins reactions releases rings shape share shell shown shows single skeletons of organic structural formula structural isomers study of carbon subtle sulfhydryl synthesis tails thalidomide treat urea valence variations versatility vitalism Wöhler
Bibliographic information
| Title | Biology, Pages 58-67 Biology, Neil A. Campbell |
| Author | Neil A. Campbell |
| Edition | 7 |
| Publisher | Pearson, Benjamin Cummings, 2005 |
| Original from | the University of California |
| Digitized | 29 Jul 2011 |
| Length | 1231 pages |
| Export Citation | BiBTeX EndNote RefMan |