## Physical Principles and Techniques of Protein Chemistry, Part 1 |

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Page 304

Debye ( 1929 ) interpreted the

molecules in a continuous medium with friction . He derived an equation utilizing

Stokes ' law for a rotating sphere T = S / 2KT = 4nna3 / kT ( 46 ) where n is the ...

Debye ( 1929 ) interpreted the

**relaxation**time in terms of the rotation of polarmolecules in a continuous medium with friction . He derived an equation utilizing

Stokes ' law for a rotating sphere T = S / 2KT = 4nna3 / kT ( 46 ) where n is the ...

Page 320

If the mean - square fluctuation moment is finite , this would exhibit a

the neighborhood of 20 kc and would not contribute any dielectric increment in

the 1 mc region . Takashima and Schwan ( 1959 ) investigated the dielectric ...

If the mean - square fluctuation moment is finite , this would exhibit a

**relaxation**inthe neighborhood of 20 kc and would not contribute any dielectric increment in

the 1 mc region . Takashima and Schwan ( 1959 ) investigated the dielectric ...

Page 321

If we insert an experimental value for the

calculate the radius of the protein molecule . Yue and Lumry ( 1965 ) performed

the calculation with myoglobin and obtained a value of 21 . 3 Å for the average ...

If we insert an experimental value for the

**relaxation**time in this equation , we cancalculate the radius of the protein molecule . Yue and Lumry ( 1965 ) performed

the calculation with myoglobin and obtained a value of 21 . 3 Å for the average ...

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### Contents

LIST OF CONTRIBUTORS | 2 |

The Enhancement of Contrast | 21 |

The Preservation of Specimens | 35 |

Copyright | |

11 other sections not shown

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### Common terms and phrases

absorbance absorption acid appears applied atoms axis birefringence boundary buffer calculated cell charge Chem chromophores complex concentration constant containing contrast corrected corresponding curve dependence determined dielectric difference diffusion dipole direction distribution effects electric electric field electron electrophoresis elution emission energy equation equilibrium example excitation experimental experiments factor flow fluorescence fraction frequency function gel filtration given groups important increase indicates intensity interactions ionic ions length light limited macromolecules measured method microscope migration mobility molecular molecules myosin observed obtained occurs optical particles patterns peaks perturbation phase plot polarization position possible preparation present produced protein range ratio reaction reference relative relaxation respectively rotation scattering separation serum albumin shift shown single solution solvent specimen spectra spectrum strength structure studies technique theoretical theory tion unit usually values volume wavelength weight yield zone