Dog Breeds Information and More
  Komondor - Dog Breeds Facts and Information Dog Breeds Selector A to Z dog breeds Forums
Dog Breeds Selector
Search for a dog by:
Dog Groups
AKC Dog Groups
Dogs by Size
Characteristics (Primary)
Characteristics (Secondary)
Feeding requirements
Coat Care
Activeness
Sociableness
Watchdog abilities
Training
First Used
Country of Origin
Year of Origin
Life Expectancy (Minimum)
Life Expectancy (Maximum)

 
Dog names
Dog training
Toy dogs
Intelligence
Dog health
Dog worship
Ticks

 
Golden Retriever
Labrador Retriever
Jack Russell
 
Find a Breed
 
Dog Breeds Encyclopedia
 

Reactivity

Reactivity refers to the rate at which a chemical substance tends to undergo a chemical reaction in time. In pure compounds, reactivity is regulated by the physical properties of the sample. For instance, grinding a sample to a higher specific surface area increases its reactivity. In impure compounds, the reactivity is also effected by the inclusion of contaminants. In crystalline compounds, the crystalline form can also affect reactivity. However in all cases, reactivity is primarily due to the sub-atomic properties of the compound.

Causes of Reactivity

In general, any time a chemical reaction occurs it is due to the chemical being able to enter a more stable state. Quantum chemistry provides the most in depth and exact understanding of the reason this occurs. Electrons exist in orbitals that are the result of solving the Schrodinger equation for specific situations. These orbitals do not exist, and are simply models, however, they provide an excellent basis from which to work.

All things (values of the n and ml quantum numbers) being equal, the order of stability of electrons in a system from least to greatest is unpaired with no other electrons in similar orbitals, unpaired with all degenerate orbitals half filled and the most stable is a filled set of orbitals. In order to achieve one of these orders of stability, an atom will react with another atom, thereby stabilizing both atoms. For example, a lone hydrogen atom has a single electron in its 1s orbital. It becomes significantly more stable (as much as 100 kilocalories per mole, or 420 kilojoules per mole) when reacting to form H2.

It is for this same reason that carbon will almost always form four bonds. Its ground state valence configuration is 2s2 2p2, half filled. However, the activation energy to go from half filled to fully filled p orbitals is so small, it is negligible and as such carbon will form them almost instantaneously, meanwhile the process releases a significant amount of energy (exothermic). This four equal bond configuration is called sp3 hybridization.

Chemical Kinetics and Reactivity

The rate of any given reaction A → products (important point is that the order is first) is governed by the equation:

Rate = k[A]

where the rate is the number of moles per second consumed in the rate-determining step of the reaction, [A] is the concentration of the substance in moles per liter and k is the reaction constant which is constant for that temperature and pressure, though it is independent of concentration. The greater the reactivity of a compound the higher the value of k and the higher the rate.

See also

The contents of this article are licensed from Wikipedia.org under the
GNU Free Documentation License. How to see transparent copy

     Dog Breeds Encyclopedia | Legal info