Physical Chemistry and Its Biological ApplicationsPhysical Chemistry and Its Biological Applications ... |
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Page 39
... measurements in any one capillary of two liquids , 1 and 2 , the simple proportion can be applied : Y1 Y2 = h1p1 h2P2 ( 1-46 ) When very accurate measurements are to be made , variation in ra- dius of the capillary from one point to ...
... measurements in any one capillary of two liquids , 1 and 2 , the simple proportion can be applied : Y1 Y2 = h1p1 h2P2 ( 1-46 ) When very accurate measurements are to be made , variation in ra- dius of the capillary from one point to ...
Page 168
... measurements of reasonably good precision to main- tain the temperature of the conductivity cell constant by mounting it in a constant - temperature water or oil bath . If it is desired to make measurements of properties of solutes ...
... measurements of reasonably good precision to main- tain the temperature of the conductivity cell constant by mounting it in a constant - temperature water or oil bath . If it is desired to make measurements of properties of solutes ...
Page 173
... measurements have various other applications . In the study of protein suspensions , they can be used to check for the absence of electrolytes , which produce misleading results if present during osmotic measurements . Conductance ...
... measurements have various other applications . In the study of protein suspensions , they can be used to check for the absence of electrolytes , which produce misleading results if present during osmotic measurements . Conductance ...
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absorption acid adsorbed adsorption amino amount behavior benzene Calculate carbon carboxyl cell chain charge Chem chemical chemical shift chloride cm³ coefficient complex components concentration containing corresponding curve described diagram dipole dissociation distance effect electric electrolyte electron energy change enthalpy entropy enzyme equal equation equilibrium constant example force free energy frequency function H₂O heat hydrogen atom hydrogen bonds increase interaction ionic ionization k₁ k₂ kcal kcal/mol kinetic magnetic field magnitude material measured membrane mixture molar mole fraction molecular weight molecules nuclei occurs orbital osmotic pressure oxidation oxygen particles polar potential protein proton quantum number radiation rate constant ratio reactant reaction represented resonance rotation sample shown in Figure sodium solid solubility solvent species spectrum spin structure substance sucrose surface tension temperature tion titration torr transition triplet tube vapor pressure velocity vibrational viscosity volume wavelength zero