Physical Principles and Techniques of Protein Chemistry, Part 2 |
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Page 179
Point sources of light do not exist , as all who design optical instruments are
painfully aware , and intensity must always be sacrificed to improve collimation ,
or more pertinent to the area of light - scattering photometry , collimation must
always ...
Point sources of light do not exist , as all who design optical instruments are
painfully aware , and intensity must always be sacrificed to improve collimation ,
or more pertinent to the area of light - scattering photometry , collimation must
always ...
Page 184
In the Brice instrument , where the " incident " beam intensity is measured after it
has passed through the cell ( and is actually a transmitted intensity ) , this
reflection subtracts intensity from the measured 0 ° beam and must be corrected
for .
In the Brice instrument , where the " incident " beam intensity is measured after it
has passed through the cell ( and is actually a transmitted intensity ) , this
reflection subtracts intensity from the measured 0 ° beam and must be corrected
for .
Page 226
After traversing a thickness t the intensity is I ( v ) = 1. ( v ) exp ( -k ( v ) t ] ( 2 )
where 1. ( v ) is the incident intensity . The optical density is defined as D log10 (
1/1 ) = -log10 ( T ) ( 3 ) where T is the transmittance . The magnitude of the
fractional ...
After traversing a thickness t the intensity is I ( v ) = 1. ( v ) exp ( -k ( v ) t ] ( 2 )
where 1. ( v ) is the incident intensity . The optical density is defined as D log10 (
1/1 ) = -log10 ( T ) ( 3 ) where T is the transmittance . The magnitude of the
fractional ...
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Contents
Ultracentrifugal Analysis J H Coates | 1 |
Glossary of Symbols | 2 |
Introduction | 3 |
Copyright | |
36 other sections not shown
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Common terms and phrases
absorption acid analysis appear applied associated average band beam binding bond bound calculated cell changes charge Chem chemical shifts coefficient coil complex component concentration constant correction density dependence described determined direction discussed effect equation equilibrium et al example experiments factor field follows frequency fringe function give given gradient groups important increase intensity interaction length light light scattering limit macromolecule magnetic means measured method molecular weight molecule observed obtained occur optical oriented particle peak Phys plot Polymer position possible present procedure protein protons range ratio reference region relatively relaxation residues resonance rigid rods rotation sample scattering sedimentation shape shearing showed shown slit solution solvent specific spectra spectrum speed structure studies technique temperature tion transition usually values various viscosity volume zero
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Bibliographic information
| Title | Physical Principles and Techniques of Protein Chemistry, Part 2 Molecular biology Molecular biology; an international series of monographs and textbooks Physical Principles and Techniques of Protein Chemistry, Sydney J. Leach |
| Editor | Sydney J. Leach |
| Publisher | Academic Press, 1969 |
| Original from | the University of Michigan |
| Digitized | 10 Oct 2006 |
| ISBN | 0124401031, 9780124401037 |
| Export Citation | BiBTeX EndNote RefMan |