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Carbon oxides number

The columns of Table 17.1 contain characteristic substructures ordered by common average carbon oxidation numbers. Also, the average carbon oxidation number increases in going from left to right in this table. Accordingly, reactions are oxidations if they convert a substructure of one column into a substructure of a column that is further to the right. The opposite is true for reductions. [Pg.740]

Hydrogen (each) Carbon Oxidation number (+1) Oxidation number (-4)... [Pg.46]

As we have just seen the reaction of alkanes with oxygen to give carbon dioxide and water IS called combustion A more fundamental classification of reaction types places it m the oxidation—reduction category To understand why let s review some principles of oxidation-reduction beginning with the oxidation number (also known as oxidation state)... [Pg.87]

The carbon m methane has the lowest oxidation number (—4) of any of the com pounds m Table 2 4 Methane contains carbon m its most reduced form Carbon dioxide and carbonic acid have the highest oxidation numbers (+4) for carbon corresponding to Its most oxidized state When methane or any alkane undergoes combustion to form carbon dioxide carbon is oxidized and oxygen is reduced A useful generalization from Table 2 4 is the following... [Pg.87]

Can you calculate the oxidation number of carbon solely from... [Pg.88]

Oxidation Numbers in Compounds with More Than One Carbon... [Pg.89]

A neutral carbon atom has four valence electrons Five electrons are assigned to the CH2OH carbon therefore it has an oxidation number of -1 Seven electrons are assigned to the CH3 carbon therefore it has an oxidation number of-3 As expected this method gives an oxidation number of -2 for oxygen and +1 for each hydrogen... [Pg.89]

Combustion of alkanes is an example of oxidation-reduction Although It IS possible to calculate oxidation numbers of carbon m organic mole cules It IS more convenient to regard oxidation of an organic substance as an increase m its oxygen content or a decrease m its hydrogen content... [Pg.98]

Table 1 6 VSEPR and Molecular Geometry Table 1 7 Dissociation Constants (pK ) of Acids Table 2 5 Oxidation Numbers in Compounds with More Than One Carbon... Table 1 6 VSEPR and Molecular Geometry Table 1 7 Dissociation Constants (pK ) of Acids Table 2 5 Oxidation Numbers in Compounds with More Than One Carbon...
Although the selectivity of isopropyl alcohol to acetone via vapor-phase dehydrogenation is high, there are a number of by-products that must be removed from the acetone. The hot reactor effluent contains acetone, unconverted isopropyl alcohol, and hydrogen, and may also contain propylene, polypropylene, mesityl oxide, diisopropyl ether, acetaldehyde, propionaldehyde, and many other hydrocarbons and carbon oxides (25,28). [Pg.96]

Most of the time we are concerned only with whether a particular reaction is an oxidation or reduction rather than with detenrrining the precise change in oxidation number. In general Oxidation of carbon occurs when a bond between carbon and an atom that is less electronegative than carbon is replaced by a bond to an atom that is more electronegative than carbon. The reverse process is reduction. [Pg.88]

Notice that this generalization follows naturally from the method of calculating oxidation numbers outlined in Table 2.5. In a C—C bond one electron is assigned to one carbon, the second electron to the other. In a bond between carbon and some other element, none of the electrons in that bond ar e assigned to car bon when the element is more electronegative than carbon both are assigned to carbon when the element is less electronegative than carbon. [Pg.88]

Oxidation Number Oxidation Level One-Carbon Form Tetrahydrofolate Form... [Pg.603]

Determine the oxidation numbers of carbon in the compounds carbon monoxide, CO, carbon dioxide, C02, and in diamond. [Pg.222]

Verify that reaction (23) is an oxidation-reduction reaction and that the oxidation number change of carbon is balanced by the oxidation number change of the sulfur. [Pg.229]

Step I. We wish to oxidize 1.00 kg of carbon. The number of moles of carbon is... [Pg.229]

Here the change in oxidation number per atom of iron is from +2 to +3, or by 1 unit of oxidation, hence the equivalent of iron(II) sulphate is 1 mole. Another important reaction is the oxidation of oxalic acid to carbon dioxide and water ... [Pg.852]

The change in oxidation number of two atoms of carbon is from +6 to +8, or by 2 units of oxidation. The equivalent of oxalic add is therefore 2 mole. [Pg.852]

The oxidation number of carbon increases from +3 to +4, so the C atoms in the oxalic acid are oxidized. [Pg.606]

See other pages where Carbon oxides number is mentioned: [Pg.1290]    [Pg.1290]    [Pg.95]    [Pg.87]    [Pg.88]    [Pg.88]    [Pg.1203]    [Pg.66]    [Pg.35]    [Pg.97]    [Pg.21]    [Pg.138]    [Pg.87]    [Pg.88]    [Pg.88]    [Pg.1203]    [Pg.603]    [Pg.211]    [Pg.422]    [Pg.461]    [Pg.90]    [Pg.151]    [Pg.177]    [Pg.703]    [Pg.724]   
See also in sourсe #XX -- [ Pg.43 ]



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