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Hydrazine

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Hydrazine is also a keystone in finding and producing heterocyclic compounds.
Hydrazine is also a keystone in finding and producing heterocyclic compounds.
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== References ==
== References ==
* [http://en.wikipedia.org/wiki/Hydrazine Hydrazine] Wikipedia
* [http://en.wikipedia.org/wiki/Hydrazine Hydrazine] Wikipedia
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* [http://www.chm.bris.ac.uk/webprojects2000/jsaunders/Properties.htm Hydrazine Properties]Properties
* [http://www.chm.bris.ac.uk/webprojects2000/jsaunders/Properties.htm Hydrazine Properties]Properties
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= See Also =
 
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{{chemistry navbox}}
[[Category:Compound]]
[[Category:Compound]]
[[Category:inorganic compound]]
[[Category:inorganic compound]]
[[Category:Hydrazine]]
[[Category:Hydrazine]]

Revision as of 22:24, 5 September 2010

Hydrazine
Hydrazine Hydrazine
General
Systematic name Hydrazine
Molecular formula N2H4
Molar mass 32.05 g/mol32.05 amu
Appearance Colorless liquid
CAS number 302-01-2
Properties
Density and phase 1.01 g/cm31.01 g/ml, (liquid)
Solubility in water infinitely miscible
Other Solvents miscible with

polar organic solvents

Melting point 1°C274.15 K
33.8 °F
493.47 °R
Boiling point 114°C387.15 K
237.2 °F
696.87 °R
Viscosity .9 cP at 25°C
Structure
Molecular shape pyramidal at N
Dipole moment 1.85 D D
Hazards
MSDS External MSDS
Main hazards Toxic, causes burns.
NFPA 704

NFPA 704 svg.png

3
3
3
 
Flash point 37.78°C (closed cup)
R/S statement R:45-10-23/24/25-34-43-50/53

S:53-45-60-61

RTECS number MU7175000
Related compounds
Related Hydrides

Hydrogen peroxide
Ammonia

Related compounds

monomethylhydrazine
dimethylhydrazine
phenylhydrazine
triazane

Except where noted otherwise, data are given for
materials in their standard state (at 25 °C, 100 kPa)
Disclaimer and references

Hydrazine is a great compound that has many uses such as rocket fuel or as a powerful reducing agent. Hydrazine is a very helpful compound that can be used for many things. Hydrazine is also very toxic and unstable, without cautious and careful handling of this substance, bad things could occur. Contact with Hydrazine, may cause skin irritation in many places and even coma and seizures in humans.

Contents

Properties

Hydrazine is a compound similar to ammonia, having similar chemical and physical properties. Hydrazine is so similar to ammonia because it is actually made up of two ammonia molecules. Two ammonia molecules combine and lose one hydrogen atom, per molecule, to form a Hydrazine molecule.

Anhydrous Hydrazine is a highly polar and combustible substance. The combustion of Hydrazine decomposes into its original components such as ammonia and leftover hydrogen and nitrogen atoms. Porous substances that come in contact with Hydrazine may have a spontaneous reaction leading it to ignite in the air. Some of these reactions that include Hydrazine may have an explosive outcome.

More physical and chemical properties can be found in the column on the right of the page.

Occurrences

When it comes to Hydrazine, natural occurrences are rare. Hydrazine supposedly has occurred naturally in a few places, but these are just assumptions.

Natural Occurrences

In 1974, a tobacco company reported that Hydrazine was created through one of their nitrogen based processes. Later studies showed that Hydrazine may occur naturally in biological nitrogen fixation. Even though natural occurrences of hydrazine are scarce, hydrazine can be derived from many compounds, some of which are natural. These compounds include: gyromitrin, iproniazid, hydralazine, phenelzine, 1,1-dimethylhydrazine, 1,2-dimethylhydrazine, and phenylhydrazine. All of these can form or be transformed into a hydrazine molecule. For instance, gyromitrin comes from a widely produced mushroom species that can be metabolized into a form of hydrazine. Phenylhydrazine, in fact, was the first hydrazine that was discovered.

Synthetic Occurrences

In 1889, Theodor Curtius synthesized the first Hydrazine compound through the use of a continous circuit. Hydrazine is produced in a process called the "Olin Raschig process", through the use of sodium hypochlorite and ammonia. This process was developed in 1907. This method relies on the fact that chloramine will react with ammonia.

Hydrazine can also be produced through a couple of the steps of synthesizing acetone.

Uses

Hydrazine is a extremely powerful reducing agent. Other uses include: rocket fuel, production of spandex fibers, blowing agent, solder, fluxes, and photographic developers. In the beginning of World War II, Hydrazine was starting to be used in rocket fuel. Hydrazine is also used in single propelled boosters on the side of the aircraft.

Hydrazine is also a keystone in finding and producing heterocyclic compounds.

References

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