Axial orientation

The most stable conformation of 1 3 dioxan 5 ol is the chair form that has its hydroxyl group in an axial orientation Suggest a reasonable explanation for this fact Building a molecular model IS helpful... 

Anomeric effect (Section 25 8) The preference for an elec tronegative substituent especially a hydroxyl group to oc cupy an axial orientation when bonded to the anomeric carbon m the pyranose form of a carbohydrate Anti (Section 3 1) Term describing relative position of two substituents on adjacent atoms when the angle between their bonds is on the order of 180° Atoms X and Y m the structure shown are anti to each other... 

An electronegative substituent adjacent to a ring oxygen atom also shows a preference for an axial orientation. This is known as the anomeric effect , and is particularly significant to the conformations of carbohydrates (B-71MI20100, B-83MI20100). 

The transverse (circumferential) crack path reveals that the stresses responsible for SCC were axially oriented that is, the tube was pulled at its ends. Residual tube-forming stresses may also have contributed in this case. The specific cracking agent was caustic, which was apparently concentrated by evaporation when water flashed to steam in these locations. 

Deliberately oriented polystyrene is available in two forms filament (mono-axially oriented) and film (biaxially oriented). In both cases the increase in tensile strength in the direction of stretching is offset by a reduction in softening point because of the inherent instability of oriented molecules. 

The relative preference for the axial orientation for a-halocyclohexanones can also be interpreted in stereoelectronic terms. In 2-chlorocyclohexanone, the axial arrangement... 

The magnitude of the anomeric effect depends on the nature of the substituent and decreases with increasing dielectric constant of the medium. The effect of the substituent can be seen by comparing the related 2-chloro- and 2-methoxy-substituted tetrahydropy-rans in entries 2 apd 3. The 2-chloro compound exhibits a significantly greater preference for the axial orientation than the 2-methoxy compound. Entry 3 also provides data relative to the effect of solvent polarity it is observed that the equilibrium constant is larger in carbon tetrachloride (e = 2.2) than in acetonitrile (e = 37.5). 

Compounds in which conformational, rather than configurational, equilibria are influenced by the anomeric effect are depicted in entries 4—6. Single-crystal X-ray dilfiaction studies have unambiguously established that all the chlorine atoms of trans, cis, ira j-2,3,5,6-tetrachloro-l,4-dioxane occupy axial sites in the crystal. Each chlorine in die molecule is bonded to an anomeric carbon and is subject to the anomeric effect. Equally striking is the observation that all the substituents of the tri-0-acetyl-/ -D-xylopyranosyl chloride shown in entry 5 are in the axial orientation in solution. Here, no special crystal packing forces can be invoked to rationalize the preferred conformation. The anomeric effect of a single chlorine is sufficient to drive the equilibrium in favor of the conformation that puts the three acetoxy groups in axial positions. 

The preferred conformations of both 1-methyl-l-phenylcyclohexane and 2-methyl-2-phenyl-l,3-dioxane have the phenyl group in the axial orientation even though the conformational flee energy of the phenyl group (2.9 kcal) is greater than that for a methyl group (1.8 kcal). Explain. 

The C-2 equatorial proton is selectively removed when 1,3-ditiiianes are deprotonated. Furthermore, if the resulting carbanion is protonated, there is a strong preference for equatorial protonation, even if fliis leads to a less stable axial orientation for the 2-substituent. 

The major advantage of film blowing is the ease with which biaxial orientation can be introduced into the film. The pressure of the air in the bubble determines the blow-up and this controls the circumferential orientation. In addition, axial orientation may be introduced by increasing the nip roll speed relative to the linear velocity of the bubble. This is referred to as draw-down. 

Anomeric effect (Section 25.8) The preference for an electronegative substituent, especially a hydroxyl group, to occupy an axial orientation when bonded to the anomeric carbon in the pyranose form of a carbohydrate. 

That the methyl group in the pyrrolidine enamine of 2-methylcyclo-hexanone (7) is in fact axial was demonstrated by Johnson and Whitehead (8). They found that careful hydrolysis of the pyrrolidine enamine of the conformationally more stable system, i.e., 2-methyI-4-t-butylcyclohexanone (13), led to a 1 4 mixture of cis and trans isomers of the ketone (14 and 15), showing that the methyl group in the enamine is largely in the axial orientation. 

That the methyl group in the less substituted isomer of the enamine (20) is axial was borne out by the work of Johnson et al. (18) in the total synthesis of the glutarimide antibiotic //-dehydrocycloheximide (24). The acylation of the morpholine enamine of 2,4-dimethylcyclohexanone (25) with 3-glutarimidylacetylchloride (26), followed by the hydrolysis of the intermediate product (27) with an acid buffer, led to the desired product in 35 % yield. The formation of the product in a rather low yield could most probably be ascribed to the relatively low enamine-type aetivity exhibited by the tetrasubstituted isomer, which fails to undergo the acylation reaction, and also because in trisubstituted isomer one of the CHj groups is axial. Since the methyl groups in the product are trans to each other, the allylic methyl group in the less substituted isomer of the enamine should then be in the axial orientation. 

Risaliti et al. (22), have shown that in the addition of the electrophilic olefins to the enamines of cyclohexanone, the formation of the less substituted enamine is favored when a bulky group is present at the electrophilic carbon atom. For instance, the reaction of (8-nitrostyrene with the morpholine enamine of cyclohexanone gave only the trisubstituted isomer (30) with the substituent in the axial orientation (23). The product on hydrolysis led to the ketone (31) to which erythro configuration was assigned on the grounds illustrated in Scheme 3 (24). 

In a similar manner the addition of ethyl azodicarboxylate to the morpholine enamine of cyclohexanone furnished the less substituted isomer (34) with the substituent in the axial orientation (2, 26). 

The reactions of pyrrolidinocyelohexenes with acid have also been Considered from a stereochemical point of view. Deuteration of the 2-methylcyclohexanone enamine gave di-2-deuterio-6-methylcyclohexanone under conditions where ds-4-/-butyI-6-methyIpyrrolidinocycIohexene was not deuterated (2J4). This experiment supported the postulate of Williamson (2JS), which called for the axial attack of an electrophile and axial orientation of the 6 substituent on an aminocyclohexene in the transition state of such enamine reactions. These geometric requirements explain the more difficult alkylation of a cyclohexanone enamine on carbon 2, when it is substituted at the 6 position, as compared with the unsubstituted case. 

PET fibers in final form are semi-crystalline polymeric objects of an axial orientation of structural elements, characterized by the rotational symmetry of their location in relation to the geometrical axis of the fiber. The semi-crystalline character manifests itself in the occurrence of three qualitatively different polymeric phases crystalline phase, intermediate phase (the so-called mes-ophase), and amorphous phase. When considering the fine structure, attention should be paid to its three fundamental aspects morphological structure, in other words, super- or suprastructure microstructure and preferred orientation. 

The fact that both normal and abnormal machine dynamics tend to generate unbalanced forces in one or more directions increases the analyst s ability to determine the root-cause of deviations in the machine s operating condition. Because of this, measurements should be taken in both radial and axial orientations. 

Axially oriented measurements are used to determine the lateral movement of a machine s shaft or dynamic mass. These measurement points are oriented in-line or parallel with the shaft or direction of movement. 

Figure44.2 Recommended measurement point logic. AO = axial orientation, HO = horizontal orientation, VO = vertical orientation...

In addition to orientation in one direction (mono-axial orientation), biaxial orientation is possible. This is achieved when sheet is stretched in two directions resulting in layering of the molecules. This can increase the impact strength, tensile strength and solvent cracking resistance of polymers and with crystalline plastics the polymer clarity may also be improved. 

The bromide (5) failed to couple with dialkoxypyrimidines, even at elevated temperatures the failure is probably because of steric conditions imposed by the axially oriented C-4 p-nitrobenzoyloxyl group (see structure 5) this same group in the other halides (la, lb, 2a, 2b, 4a, and 4b) discussed in the foregoing is an equatorial substituent. Accordingly, the preparation of a differently constituted halide of 2-deoxy-D-Zt/xo-hexose is being investigated for the synthesis of pyrimidine nucleosides. 

It was noted (23) that the NMR spectrum of compound 32 was identical with that published (34) for the third product (assigned structure 29) isolated from the reaction of tetra-O-acetyl-2-hydroxy-D-glucal with acetic anhydride and zinc chloride. The identity of the compounds was fully established and a revised structure proposed for this third product. In the presence of zinc chloride, therefore, epimerization can occur at an allylic site and the quasi-equatorial C-4 acetoxy group in the erythro isomers 27 and 28 can assume the favored quasi-axial orientation (24). 

One of the most interesting stereospecific dependences which followed from the original study (38,39) of O-acetylated hexopyranose and pento-pyranose derivatives was that of the anomeric proton shifts. In general it was found that the axially oriented anomeric protons gave resonances to higher field than the equatorially oriented protons. Many subsequent studies of pyranose derivatives (24,40) and of inositol derivatives (43)... 

The effect of stereogenic centers along the chain, connecting the 7t-nueleophile and the nitrogen atom, has been studied. For substituents adjacent to the nitrogen atom, an axial orientation is preferred in order to avoid A 1-31 strain between the substituent and the carbonyl function of the A-acyl group146. 

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