Physical Chemistry and Its Biological ApplicationsPhysical Chemistry and Its Biological Applications ... |
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Page 195
01 M sodium phosphate with hydrochloric acid solution . 1 LIII ' O 0 . 2 0 . 4 0 . 6
IIIII 2 . 2 2 . 4 2 . 6 2 . 8 3 . 0 0 . 8 1 . 0 1 . 2 1 . 4 1 . 6 1 . 8 2 . 0 Moles acid per mole
phosphate reduced to 0 . 0005 ; the pH corresponding to this concentration is 3 .
01 M sodium phosphate with hydrochloric acid solution . 1 LIII ' O 0 . 2 0 . 4 0 . 6
IIIII 2 . 2 2 . 4 2 . 6 2 . 8 3 . 0 0 . 8 1 . 0 1 . 2 1 . 4 1 . 6 1 . 8 2 . 0 Moles acid per mole
phosphate reduced to 0 . 0005 ; the pH corresponding to this concentration is 3 .
Page 210
An acid functional group in a protein is following solutions : titrated and found to
have a pK , value of ( a ) 1 . 0 X 10 - 5 M HNO ... Write the formulas of the bases
conjugate the group ? to each of the following acids : - - 11 . What fraction of the ...
An acid functional group in a protein is following solutions : titrated and found to
have a pK , value of ( a ) 1 . 0 X 10 - 5 M HNO ... Write the formulas of the bases
conjugate the group ? to each of the following acids : - - 11 . What fraction of the ...
Page 211
Calculate the pH of each of the following solutions ( consider the concentrations
specified to be the exact concentrations ) : ( a ) 0 . 01 M propionic acid ( b ) 0 . 5 M
sodium nitrite ( c ) 0 . 1 M potassium hydrogen phthalate ( d ) 0 . 025 M lithium ...
Calculate the pH of each of the following solutions ( consider the concentrations
specified to be the exact concentrations ) : ( a ) 0 . 01 M propionic acid ( b ) 0 . 5 M
sodium nitrite ( c ) 0 . 1 M potassium hydrogen phthalate ( d ) 0 . 025 M lithium ...
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Contents
1STATES OF MATTER | 1 |
2SOLUTIONS | 51 |
SECOND LAW AND EQUILIBRIUM | 115 |
Copyright | |
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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 nuclei observed obtained occurs orbital organic oxygen particles phase positive possible potential present pressure properties protein radiation reactant reaction reduced region represented rotation sample shown shows side sodium solid solution solvent species step structure surface surface tension temperature tion transition unit usually various vibrational volume wave