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Polyatomic molecules bonds

For polyatomic molecules, bond strength is defined as the average dissociation energy for one type of bond found in different molecules. [Pg.23]

Schinke R and Huber J R 1993 Photodissociation dynamics of polyatomic molecules. The relationship between potential energy surfaces and the breaking of molecular bonds J. Rhys. Chem. 97 3463... [Pg.1090]

The energy required to break the bond between two covalently bonded atoms is called the bond dissociation energy . In polyatomic molecules this quantity varies with environment. For example, ammonia has three N—H bond dissociation energies ... [Pg.47]

Most of the molecules we shall be interested in are polyatomic. In polyatomic molecules, each atom is held in place by one or more chemical bonds. Each chemical bond may be modeled as a harmonic oscillator in a space defined by its potential energy as a function of the degree of stretching or compression of the bond along its axis (Fig. 4-3). The potential energy function V = kx j2 from Eq. (4-8), or W = ki/2) ri — riof in temis of internal coordinates, is a parabola open upward in the V vs. r plane, where r replaces x as the extension of the rth chemical bond. The force constant ki and the equilibrium bond distance riQ, unique to each chemical bond, are typical force field parameters. Because there are many bonds, the potential energy-bond axis space is a many-dimensional space. [Pg.97]

There are forces other than bond stretching forces acting within a typical polyatomic molecule. They include bending forces and interatomic repulsions. Each force adds a dimension to the space. Although the concept of a surface in a many-dimensional space is rather abstract, its application is simple. Each dimension has a potential energy equation that can be solved easily and rapidly by computer. The sum of potential energies from all sources within the molecule is the potential energy of the molecule relative to some arbitrary reference point. A... [Pg.97]

Another example of reduced symmetry is provided by the changes that occur as H2O fragments into OH and H. The a bonding orbitals (ai and b2) and in-plane lone pair (ai) and the a antibonding (ai and b2) of H2O become a orbitals (see the Figure below) the out-of-plane bi lone pair orbital becomes a" (in Appendix IV of Electronic Spectra and Electronic Structure of Polyatomic Molecules, G. Herzberg, Van Nostrand Reinhold Co., New York, N.Y. (1966) tables are given which allow one to determine how particular... [Pg.185]

These arguments can be extended to linear and non-linear polyatomic molecules for which zero-point structure, in terms of bond lengths and angles, is isotope-dependent but for which equilibrium structure is not. [Pg.132]

I. A. Kerr, Bond strengths in polyatomic molecules, CRC Handbook of Chemistry and Physics. 73rd edn., 1992-3, pp. 9.138-9.145. [Pg.374]

The dissociation problem is solved in the case of a full Cl wave function. As seen from eq. (4.19), the ionic term can be made to disappear by setting ai = —no- The full Cl wave function generates the lowest possible energy (within the limitations of the chosen basis set) at all distances, with the optimum weights of the HF and doubly excited determinants determined by the variational principle. In the general case of a polyatomic molecule and a large basis set, correct dissociation of all bonds can be achieved if the Cl wave function contains all determinants generated by a full Cl in the valence orbital space. The latter corresponds to a full Cl if a minimum basis is employed, but is much smaller than a full Cl if an extended basis is used. [Pg.112]

Molecular orbital bonding concepts in polyatomic molecules a novel pictorial approach. D. K. Hoffman, K. Ruedenberg and J. G. Verkade, Struct. Bonding (Berlin), 1977, 33, 57-96 (14). [Pg.42]

Each atom in a polyatomic molecule completes its octet (or duplet for hydrogen) by sharing pairs of electrons with its immediate neighbors. Each shared pair counts as one covalent bond and is represented by a line between the two atoms. A Lewis structure does not portray the shape of a polyatomic molecule it simply displays which atoms are bonded together and which atoms have lone pairs. [Pg.190]

A polyatomic molecule may be nonpolar even if its bonds are polar. For example, the two fi+C—Ofi dipole moments in carbon dioxide, a linear molecule, point in opposite directions, and so they cancel each other (25) and C02 is a nonpolar... [Pg.226]

As we have seen by comparing C02 and H20, the shape of a polyatomic molecule affects whether or not it is polar. The same is true of more complicated molecules. For instance, the atoms and bonds are the same in c/s-dichloroethene (28) and frans-dichloroethene (29) but, in the latter, the C—Cl bonds point in opposite directions and the dipoles (which point along the C—Cl bonds) cancel. Thus, whereas c/s-dichloroethene is polar, traws-dichloroethene is nonpolar. Because dipole momenrs are directional, we can treat each bond dipole moment as a vector. The molecule as a whole will be nonpolar if the vector sum of the dipole moments of the bonds is zero. [Pg.227]

This example shows that a homonuclear polyatomic molecule (Os) can be polar shape is more important than differences in atoms and O, is polar despite all three atoms being oxygen. In this case, the central O atom has a different electron density associated with it than the outer two O atoms it is bonded to two O atoms whereas the outer atoms are bonded only to one O atom. [Pg.229]

A diatomic molecule is polar if its bond is polar. A polyatomic molecule is polar if it has polar bonds arranged in space in such a way that the dipole moments associated with the bonds do not cancel. [Pg.229]

The molecular orbital theory of polyatomic molecules follows the same principles as those outlined for diatomic molecules, but the molecular orbitals spread over all the atoms in the molecule. An electron pair in a bonding orbital helps to bind together the whole molecule, not just an individual pair of atoms. The energies of molecular orbitals in polyatomic molecules can be studied experimentally by using ultraviolet and visible spectroscopy (see Major Technique 2, following this chapter). [Pg.247]

According to molecular orbital theory, the delocalization of electrons in a polyatomic molecule spreads the bonding effects of electrons over the entire Energy molecule. [Pg.249]

Hoffmann DK, Ruedenberg K, Verkade JG (1977) Molecuar Orbital Bonding Concepts in Polyatomic Molecules - A Novel Pictorial Approach. 33 57-96 Hogenkamp HPC, Sando GN (1974) The Enzymatic Reduction of Ribonucleotides. 20 23-58 Housecroft CE (1997) Clusters with Interstitial Atoms from the p-Block How Do Wade s Rules Handle Them 87 137-156 Huber R, see Romao MJ (1998) 90 69-96... [Pg.247]

Hoffmann, D. K., Ruedenberg, K., Verkade, J. G. Molecular Orbital Bonding Concepts in Polyatomic Molecules - A Novel Pictorial Approach. Vol. 33, pp. 57-96. [Pg.192]

See other pages where Polyatomic molecules bonds is mentioned: [Pg.451]    [Pg.451]    [Pg.143]    [Pg.2142]    [Pg.385]    [Pg.73]    [Pg.98]    [Pg.162]    [Pg.18]    [Pg.292]    [Pg.320]    [Pg.11]    [Pg.33]    [Pg.40]    [Pg.24]    [Pg.111]    [Pg.236]    [Pg.216]    [Pg.247]    [Pg.252]    [Pg.375]    [Pg.64]    [Pg.83]    [Pg.176]    [Pg.379]    [Pg.115]    [Pg.107]    [Pg.124]    [Pg.59]   
See also in sourсe #XX -- [ Pg.255 ]



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Polyatomic molecules bonding

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