## Optical Rotatory Power in a Classical One-electron Model |

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### Contents

EQUATION OF MOTION | 5 |

SOLUTION OF THE EQUATION OF MOTION | 9 |

RELATION OF ROTATORY POWER AND TOTAL | 12 |

3 other sections not shown

### Common terms and phrases

Altar and Eyring cident light circularly polarized light circularly polarized radiation classical limit CLASSICAL ONE-ELECTRON MODEL Condon's model constrained to move coupled oscillator definite rotatory power derived difference for right driving force Drude model electric field electron constrained equation of motion equilibrium position excited exhibit rotatory power finite handed structure harmonic oscillator helical Dath helical shape helical structure helix becomes helix relative ight incident beam incident flux incident light indices of refraction intensity dependence intensity-independent Kuhn's model left and right left circularly light wave maximum amplitude mechanical Condon model medium model for rotatory model of Drude normal mode one-particle model optical activity order in jJ orientation particle's particles pitch Planck's constant possess rotatory power probability distribution quantum mechanical Condon rectilinear oscillation refraction for right right and left right circularly polarized rise to optical second order solution term total cross section twisted University of Virginia vanishing intensity x-axis zero