Physical Chemistry and Its Biological ApplicationsPhysical Chemistry and Its Biological Applications ... |
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Page 90
is less intense , and the energy of the motion tends to become distributed as
extensively and uniformly as possible , the result is the flow of heat down a
temperature gradient . The concepts heat and work are related to energy in the
process of ...
is less intense , and the energy of the motion tends to become distributed as
extensively and uniformly as possible , the result is the flow of heat down a
temperature gradient . The concepts heat and work are related to energy in the
process of ...
Page 92
3-2 EQUIVALENCE OF ENERGY FORMSFIRST LAW OF THERMODYNAMICS
Although energy can be changed from one form to another , it cannot arise out of
nothing nor can it disappear into nothing . This is a statement of the principle of ...
3-2 EQUIVALENCE OF ENERGY FORMSFIRST LAW OF THERMODYNAMICS
Although energy can be changed from one form to another , it cannot arise out of
nothing nor can it disappear into nothing . This is a statement of the principle of ...
Page 131
Substitution of this in Equation ( 4-28 ) leads to Gsoln = Gvapor = Go + RT In KX =
G + RT In K + RT In X = G + RT In X ( 4-30 ) Inspection of this equation shows that
Gy is the value of the free energy per mole when the mole fraction of the ...
Substitution of this in Equation ( 4-28 ) leads to Gsoln = Gvapor = Go + RT In KX =
G + RT In K + RT In X = G + RT In X ( 4-30 ) Inspection of this equation shows that
Gy is the value of the free energy per mole when the mole fraction of the ...
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Contents
1STATES OF MATTER | 1 |
2SOLUTIONS | 51 |
SECOND LAW AND EQUILIBRIUM | 115 |
Copyright | |
7 other sections not shown
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Common terms and phrases
absorption acid activity adsorbed amount applied atom base bond Calculate carbon carbon tetrachloride cell Chapter charge Chem chemical complex components concentration constant containing corresponding depends described determined direction distance effect electric electron energy enthalpy entropy enzyme equal equation equilibrium example expression field Figure force fraction free energy frequency function given glucose heat hydrogen increase indicated involved ionization kinetic light liquid magnetic material measured membrane method mixture mole molecular molecules motion nucleus observed obtained occurs orbital organic oxygen particles phase positive possible potential present pressure properties protein radiation reactant reaction region represented sample shown shows sodium solid solution solvent species spectrum step structure surface surface tension temperature tion transition unit usually vapor pressure various vibrational volume wave
Bibliographic information
| Title | Physical Chemistry and Its Biological Applications |
| Author | Wallace S. Brey |
| Edition | illustrated |
| Publisher | Academic Press, 1978 |
| Original from | the University of California |
| Digitized | 20 Apr 2007 |
| ISBN | 0121331504, 9780121331504 |
| Length | 589 pages |
| Export Citation | BiBTeX EndNote RefMan |