Physical Chemistry and Its Biological ApplicationsPhysical Chemistry and Its Biological Applications ... |
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Page 156
The ionic strength p is computed in the following manner: The concentration of
each ionic species in the solution is multiplied by the square of the charge on that
ion type, and the results are added together and divided by 2: |* = i2 eft (54) ...
The ionic strength p is computed in the following manner: The concentration of
each ionic species in the solution is multiplied by the square of the charge on that
ion type, and the results are added together and divided by 2: |* = i2 eft (54) ...
Page 157
electric charge from one point to the other. Given the chance, positive charge
tends to move from a place of more positive potential to one of less positive
potential. The electric field at a point, describing the force on a unit positive
charge ...
electric charge from one point to the other. Given the chance, positive charge
tends to move from a place of more positive potential to one of less positive
potential. The electric field at a point, describing the force on a unit positive
charge ...
Page 206
functional groups ionizing independently in the absence of other charges on the
macromolecule. Another effect that may cause the apparent pKa of a functional
group in a protein to deviate from the value observed for independent ionization
of ...
functional groups ionizing independently in the absence of other charges on the
macromolecule. Another effect that may cause the apparent pKa of a functional
group in a protein to deviate from the value observed for independent ionization
of ...
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absorption acid adsorbed amount applied aqueous solution benzene boiling point Calculate carbon cell charge Chem chemical chloride coefficient colligative properties components concentration containing corresponding curve described diagram difference dilute dipole dissociation effect electric electrolytes electron enthalpy change entropy enzyme equal equation equilibrium constant example force free energy free energy change frequency gaseous glucose heat capacity hydrogen atom hydrogen bonds ideal gas increase ionic ionization kcal kcal/mol kinetic magnetic field magnitude material measured membrane mixture molality molar mole fraction molecular weight molecules nuclei number of moles occurs orbital osmotic pressure oxidation oxygen particles phosphate potential protein proton quantity quantum number radiation rate constant ratio reactants reaction represented resonance rotation sample shown in Figure sodium solid solubility solvent spectrum spin structure substance sucrose surface tension temperature thermodynamic tion torr transition tube vapor pressure velocity vibrational volume wavelength zero
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 | 19 Apr 2008 |
| ISBN | 0121331504, 9780121331504 |
| Length | 589 pages |
| Export Citation | BiBTeX EndNote RefMan |