Delmar SCIENTIFIC LABORATORIES

Money-saving—unit totally eliminates these expenses: • purchases of individual ... Quick delivery—complete system is shipped by special carrier;...
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REPORT C D curves, w h i l e the discreteness of C D curves is p a r t i c u l a r l y useful i n i d e n t i f y i n g overlapping or hidden o p t i c a l l y active transitions. CD measurements are also to be preferred where studies of r o t a t i o n a l strengths of i n d i v i d u a l transitions are of importance. W h e n expressed i n terms of e l l i p t i c i t y , the m a g nitude of peak C D due t o a single o p t i c a l l y active t r a n s i t i o n is app r o x i m a t e l y equal to the peak t o t r o u g h magnitude of the corresponding O R D curve and, i n p r i n ciple at least, the u l t i m a t e sensit i v i t i e s of systems measuring C D or O R D are v e r y nearly the same. Theories of Optical

Portable glass high vacuum system is complete and ready to use Money-saving—unit totally eliminates these expenses: • purchases of individual components • fabrication of individual racks • specialized glassblowing talent • supervision of glassblowers by research workers • space taken up by permanent system Wide range—10-6 mm Hg provides working range for broad spectrum of volatile substances. Quick delivery—complete system is shipped by special carrier; it will arrive at your laboratory within one month from your order.

Supplied complete and ready to operate, this unit brings high vacuum techniques within the scope of any laboratory. Designated the DelmarUrry Portable Glass High Vacuum System, it is ideal for research ranging from studies of air- and moisturesensitive substances to preparation of samples for isotope geology. Classical design, adaptable—the classical design of the basic system is easily modified for special applications. Compact, movable—unit rolls through standard doorways, easily positions under ducts or near utility outlets. Grease-free—O-ring connectors end need for greased fittings and joints.

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Delmar 317 MADISON ST., MAYWOOD,

SCIENTIFIC LABORATORIES ILL. ·

A SUBSIDIARY

OF COLEMAN

Circle No. 14S on Readers' Service Card

34 A

·

ANALYTICAL

CHEMISTRY

A60-D-4.

INSTRUMENTS,

INC.

Activity

I n 1848 Pasteur (2J+) presented the first molecular theory of o p t i c a l a c t i v i t y ; he proposed t h a t molecules, like geometrical figures, m a y be d i v i d e d i n t o t w o classes: those w i t h superposable m i r r o r images and those w i t h nonsuperposable images. Pasteur postulated t h a t molecules belonging to the second class exhibit optical r o t a t o r y power. T h e t e r m "molecular d i s s y m m e t r y " was introduced to characterize t h i s class. F u r t h e r , Pasteur speculated t h a t molecular d i s s y m m e t r y m a y be a t t r i b u t e d to some f o r m of dissymmetric grouping of atoms i n a h e l i cal or tetrahedral configuration. I n 1874, L e B e l adopted the t e t r a hedral model of the carbon a t o m and associated o p t i c a l a c t i v i t y w i t h centers of a s y m m e t r y i n the active compound (24) • V a n ' t Hoff, i n 1874, distinguished between t w o types of o p t i c a l l y active compounds and a t t r i b u t e d optical a c t i v i t y to either of t w o properties: the presence of an asymmetric center i n the molecule or an o\ r erall dissymmetric structure containing no asymmetric centers. I n 1893, W e r n e r used available data on o p t i c a l r o t a t i o n of m e t a l complexes to establish octahedral s t r u c t u r a l models e x h i b i t i n g dissymmetric configurations (24). D r u d e formulated, i n 1896, a physical theory of optical a c t i v i t y based on the assumption t h a t i n a dissymmetric structure, charged particles are constrained t o move along helical paths (18). T h e t i m e dependent electric and magnetic fields associated w i t h an incident wave of electromagnetic r a d i a t i o n induce electronic motions w h i c h i n