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Triple bonds bond lengths

The structure of dicobalt hexacarbonyl diphenylacetylene is shown in Figure 17.6. Two 7i-orbitals of the carbon-carbon triple bond bond to two cobalt atoms. The bond length of C-C is slightly longer (1.46 A) than that of an ordinary carbon-carbon double bond. The cobalt atom forms a distorted octahedral configuration [37]. [Pg.371]

Carbon dioxide has a linear structure. The simple double-bonded formula, however, does not fully explain the structure since the measured carbon-oxygen bond lengths are equal but intermediate between those expected for a double and a triple bond. A more accurate representation is, therefore, obtained by considering carbon dioxide as a resonance hybrid of the three structures given below ... [Pg.181]

Fig. 4. The average end-to-end-distance of butane as a function of timestep (note logarithmic scale) for both single-timestep and triple-timestep Verlet schemes. The timestep used to define the data point for the latter is the outermost timestep At (the interval of updating the nonbonded forces), with the two smaller values used as Atj2 and At/A (for updating the dihedral-angle terms and the bond-length and angle terms, respectively). Fig. 4. The average end-to-end-distance of butane as a function of timestep (note logarithmic scale) for both single-timestep and triple-timestep Verlet schemes. The timestep used to define the data point for the latter is the outermost timestep At (the interval of updating the nonbonded forces), with the two smaller values used as Atj2 and At/A (for updating the dihedral-angle terms and the bond-length and angle terms, respectively).
For purely alicyclic compounds, the selection process proceeds successively until a decision is reached (a) the maximum number of substituents corresponding to the characteristic group cited earliest in Table 1.7, (b) the maximum number of double and triple bonds considered together, (c) the maximum length of the chain, and (d) the maximum number of double bonds. Additional criteria, if needed for complicated compounds, are given in the lUPAC nomenclature rules. [Pg.18]

The formation of acyl halide-Lewis acid complexes have been observed by several methods. For example, both 1 1 and 1 2 complexes of acetyl chloride, with AICI3 can be observed by NMR spectroscopy. The existence of acylium ions has been demonstrated by X-ray diffraction studies on crystalline salts. For example, crystal structure determinations have been reported for /i-methylphenylacylium and acetylium ions as SbFg salts. There is also a good deal of evidence from NMR measurements which demonstrates that acylium ions can exist in nonnucleophilic solvents. " The positive charge on acylium ions is delocalized onto the oxygen atom. This delocalization is demonstrated in particular by the short O—C bond lengths in acylium ions, which imply a major contribution from the structure having a triple bond ... [Pg.584]

The experimental bond length is 1.476. Both the triple zeta basis set and multiple polarization functions are needed to produce a very accurate structure for this molecule. [Pg.101]

Carbon-carbon bond lengths in hydrocarbons depend both on the formal bond order (single, double, triple) and on the detailed environment. [Pg.35]

Measure and record the carbon-carbon bond lengths in ethane, ethene and ethyne. These will serve as standards for single, double and triple bonds, respectively. [Pg.35]

Much current research is centering on polyynes—linear carbon chains of sp-hybridized carbon atoms. Polyynes with up to eight triple bonds have been detected in interstellar space, and evidence has been presented for the existence of carbyne, an allotrope of carbon consisting of repeating triple bonds in long chains of indefinite length. [Pg.259]

The length of the carbon-carbon triple bond in acetylene is 120 pm, and the strength is approximately 835 kj/mol (200 kcal/mol), making itthe shortest and strongest known carbon-carbon bond. Measurements show that approximately 318 kj/mol (76 kcal/mol) is needed to break a rbond in acetylene, a value some 50 kj/mol larger than the 268 kj/mol needed to break an alkene n bond. [Pg.262]

FIGURE 2.21 Cov.ilent radii ot hydrogen and the p-block elements (in picometers). Where more than one value is given, the values refer to single, double, and triple bonds. Covalent radii tend to become smaller toward fluorine. A bond length is approximately the sum of the covalent radii of the two participating atoms. [Pg.209]

See other pages where Triple bonds bond lengths is mentioned: [Pg.971]    [Pg.971]    [Pg.960]    [Pg.873]    [Pg.112]    [Pg.128]    [Pg.318]    [Pg.339]    [Pg.270]    [Pg.376]    [Pg.287]    [Pg.285]    [Pg.307]    [Pg.805]    [Pg.178]    [Pg.231]    [Pg.133]    [Pg.209]    [Pg.120]    [Pg.37]    [Pg.141]    [Pg.144]    [Pg.190]    [Pg.292]    [Pg.35]    [Pg.41]    [Pg.6]    [Pg.70]    [Pg.77]    [Pg.80]    [Pg.68]    [Pg.8]    [Pg.207]    [Pg.215]    [Pg.990]    [Pg.75]    [Pg.81]    [Pg.5]    [Pg.24]    [Pg.38]    [Pg.65]   
See also in sourсe #XX -- [ Pg.617 ]



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