Singly-bonded

Multiple linkages are treated formal-istically as multiple single bonds, e.g. C = 0... 

The double bond is not stronger than the single bond on the contrary, it is more vulnerable, making unsaturated compounds more chemically reactive than the saturates. 

The feature that distinguishes intemrolecular interaction potentials from intramolecular ones is their relative strengtii. Most typical single bonds have a dissociation energy in the 150-500 kJ mol range but the strengdi of the interactions between small molecules, as characterized by the well depth, is in the 1-25 kJ mor range. 

Double bonds also occur in other covalent compounds. By considering each double bond to behave spatially as a single bond we are able to use Table 2.6 to determine the spatial configurations of such compounds. 

Triple bonds are formed by the sharing of three pairs of electrons to form a a and two n bonds. Spatially these three bonds behave as a single bond. Consequently acetylene (ethyne) C2H2 has the linear configuration often represented as H—C=C—H. 

Ammonia is a colourless gas at room temperature and atmospheric pressure with a characteristic pungent smell. It is easily liquefied either by cooling (b.p. 240 K) or under a pressure of 8-9 atmospheres at ordinary temperature. Some of its physical and many of its chemical properties are best understood in terms of its structure. Like the other group head elements, nitrogen has no d orbitals available for bond formation and it is limited to a maximum of four single bonds. Ammonia has a basic tetrahedral arrangement with a lone pair occupying one position ... 

The dichromate ion has the following geometrical structure (single lines not necessary implying single bonds) ... 

Both methods suggest that the chemical structure of A A (cis double bonds connected by two single bonds) allows the fatty acid to access the cyclooxygenase active site of PGHS-1 through a narrow hydrophobic channel and to bind in a shape favorable for the cyclooxygenation reaction. 

Bonds Single bonds are omitted double, triple, and aromatic bonds are indicated by the symbols " = " and " ", respectively. In contrast to SMILES, aromaticity is not an atomic property,... 

There are many ways of presenting a connection table. One is first to label each atom of a molecule arbitrarily and to arrange them in an atom list (Figure 2-20). Then the bond information is stored in a second table with indices of the atoms that are connected by a bond. Additionally, the bond order of the corresponding coimection is stored as an integer code (1 = single bond, 2 = double bond, etc.) in the third column. 

Once the atoms arc defined, the bonds between them arc specified in a bond block. Each line of this block specifies which two atoms are bonded, the multiplicity of the bond (the bond type entry) and the stereo configuration of the bond (there arc also three additional fields that arc unused in Molfiles and usually set to 0). The indices of the atoms reflect the order of their appearance in the atom block. In the example analyzed, V relates to the first carbon atom (see also Figure 2-24). "2" to the second one, 3" to oxygen atom, etc. Then the two first lines of the bond block of the analyzed file (Figure 2-29) describe the single bond between the two carbon atoms C1-C2 and the double bond C2=0-5, respectively. 

A single bond (see Figure 2-48) consists of a T-system with two atom centers and two electrons. 

A double bond is represented by two systems a single bond, and a r-system with two electrons on two atom centers as shown in Figure 2-49. 

If compounds have the same topology (constitution) but different topography (geometry), they are called stereoisomers. The configuration expresses the different positions of atoms around stereocenters, stereoaxes, and stereoplanes in 3D space, e.g., chiral structures (enantiomers, diastereomers, atropisomers, helicenes, etc.), or cisftrans (Z/E) configuration. If it is possible to interconvert stereoisomers by a rotation around a C-C single bond, they are called conformers. 

Double and triple bonds are counted as if they were split into two or three single bonds, respectively. 

Similarly the stereobonds" can be defined and added to the bond list in the fourth column of the CT. A single bond acquires the value of 0 if it is not a "stereobond, 1 for np (a wedged bond). 4 for either up or down, and 6 for down (a basbed bond), The cisjtrans or E[Z configuration of a double bond is determined by the x,y.2 coordinates of the atom block if the value is 0, Tf it is 3, the double bond is either cis or tmns. In the bond block of our example (Figure 2-76), the stereocenter is set to 1 (up) at atom 6 (row 6, column 4 in the bond block), whereas the configurations of the double bonds are determined by the x,y coordinates of the atom block. 

C-atom with three single bonds (class III) 3 3... 

Shielding and unshiclding by. single bonds were encoded using Eq, (IS), where i is a single bond up to the seventh sphere (S,7j) of non-rotatable bonds centered on the proton, and and are distance and angle, respectively (Figure 1().2-6b). 

Figure 10.2.6. Special distance measures for the characterization of proton environments a) distance r and angle a, to double bonds b) distance and angle Oc, to single bonds c) dihedral angle a, to the third bond from the hydrogen atom.

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