Biological oxidations are dehydrogenation reactions.
* To be an oxidation reaction electrons have to be lost. * Any reaction that results in electrons being lost can be described as an oxidation reaction.
An oxidation-reaction involve a transfer of electrons.
Oxidation is an exergonic reaction.
These are not mutually exclusive. A reaction can be oxidation and exothermic. Oxidation reactions involve a change in oxidation state (charge) which is interpreted as a loss of electrons. Exothermic reactions release heat energy.
They show the oxidation an reduction halves of a reaction
Dehydrogenation is a type of oxidation reaction which involves the removal of an hydrogen atom(H) from a molecule or compound. Oxidation reaction in chemistry is simply the removal of an electron from an atom, molecule or compound. A substance that is oxidised loses an electron. There are a lot of different reactions that are oxidation reactions, dehydrogenation is just one example of an oxidation reaction.
dehydrogenation
Biological oxidation takes place in the mitochondria within all living cells of the body but not in dead cells, for example, cornified cells of the skin.
An oxidation half-reaction
* To be an oxidation reaction electrons have to be lost. * Any reaction that results in electrons being lost can be described as an oxidation reaction.
An oxidation-reaction involve a transfer of electrons.
Fuels burning is an oxidation reaction.
Oxidation is an exergonic reaction.
hat happens in an oxidation reaction? to9u
Combustion is an oxidation reaction - a reaction with oxygen.
No
These are not mutually exclusive. A reaction can be oxidation and exothermic. Oxidation reactions involve a change in oxidation state (charge) which is interpreted as a loss of electrons. Exothermic reactions release heat energy.