Salt
:
This article is about the general chemical term salt. For the everyday meaning, see edible salt or its main ingredient, sodium chloride. For other meanings of the word salt, see salt (disambiguation).
In
chemistry, a
salt is any
ionic compound composed of
cations (positively
charged ions) and
anions (negative ions) so that the product is
neutral (without a net charge). These component ions can be
inorganic (Cl
−) as well as
organic (CH
3COO
−) and monoatomic (F
−) as well as
polyatomic ions (SO
42−); they are formed when
acids and
bases react.
There are several varieties of salts:
Normal salts are those that do not contain a
hydroxide ion (OH
−) or a
hydrogen ion (H
+). Salts that contain a hydroxide ion are
basic salts and salts that contain a hydrogen ion are
acid salts.
Impure salts is a name for salts which have lost their saltiness, and can also refer to
natrons.
Zwitterions are salts that contain an anionic center and a cationic center in the same
molecule; examples include
amino acids, many
metabolites,
peptides and
proteins.
When salts are dissolved in water, they are called
electrolytes, and are able to conduct
electricity, a property that is shared with molten salts. Mixtures of many different ions in solutionâ€"like in the
cytoplasm of
cells, in
blood,
urine, plant saps and
mineral watersâ€" usually do not form defined salts after evaporation of the water. Therefore, their salt content is given for the respective ions.
Salts can be dehydrating to the human body if consumed in excess.
The first registers of salt use were produced around
4000 B.C. (roughly) in
Egypt,
Greece and
Rome. Salt was very valuable and used to preserve foods. In
Ancient Rome, salt started to be used as
money originating the current
Latin-derivative term
salary. Payments to
Roman workers were made in salt. Salt was also given to the parents of the
groom in marriage until the
8th century.
The
Phoenicians were the first people to harvest salt from the sea. They sold it to other civilizations and most of the time it cost more than gold . The Phoenicians were victims of their success and as a result of harvesting the salt from the sea, the value of salt depreciated. The Phoenicians harvested the salt by flooding plains of land with seawater, then leaving the plains to dry. After the water dried, the salt which was left was collected and sold.
Consistency
Salts are usually solid
crystals with a relatively high
melting point. However, there exist salts that are liquid at room temperature, so-called
ionic liquids. Inorganic salts usually have a low hardness and a low compressibility, similar to
edible salt.
Color
Salts can be clear and
transparent (sodium chloride),
opaque (
titanium dioxide), and even metallic and lustrous (
iron disulfide).
Salts exist in all different
colors, e.g.
yellow (sodium
chromate),
orange (
potassium dichromate),
red (
mercury sulfide),
mauve (
cobalt chloride hexahydrate),
blue (
copper sulfate pentahydrate,
ferric hexacyanoferrate),
green (
nickel oxide),colorless (
magnesium sulfate),
white (
titanium dioxide), and
black (
manganese dioxide). Most
minerals and inorganic
pigments as well as many synthetic organic
dyes are salts.
Taste
Different salts can elicit all five
basic tastes, e.g. salty (sodium chloride), sweet (
lead diacetate), sour (
potassium bitartrate),
bitter (
magnesium sulfate), and
umami or savory (
monosodium glutamate).
Odor
Pure salts are non-
volatile and odorless, while impure salts may smell after the
conjugate acid (e.g. acetates like acetic acid (
vinegar) and cyanides like hydrogen cyanide (
almonds)) or the conjugate base (e.g. ammonium salts like
ammonia) of the component ions.
|
Chemical composition of sea salt |
The name of a salt starts with the name of the cation (e.g.
sodium or
ammonium) followed by the name of the anion (e.g.
chloride or
acetate). Salts are often referred to only by the name of the cation (e.g.
sodium salt or
ammonium salt) or by the name of the anion (e.g.
chloride or
acetate).
Common salt-forming cations include:
*
ammonium NH
4+ *
calcium Ca
2+ *
iron Fe
2+ and Fe
3+ *
magnesium Mg
2+ *
potassium K
+ *
pyridinium C
5H
5NH
+ *
quaternary ammonium NR
4+ *
sodium Na
+Common salt-forming anions (and the name of the parent acids in parentheses) include:
*
acetate CH
3COO
− (
acetic acid)
*
carbonate CO
32− (
carbonic acid)
*
chloride Cl
− (
hydrochloric acid)
*
citrate HOC(COO
−)(CH
2COO
−)
2 (
citric acid)
*
cyanide C≡N
− (
hydrogen cyanide)
*
hydroxide OH
− (
water)
*
nitrate NO
3− (
nitric acid)
*
nitrite NO
2− (
nitrous acid)
*
oxide O
2− (
water)
*
phosphate PO
43− (
phosphoric acid)
*
sulfate SO
42− (
sulfuric acid)
Salts are formed by a
chemical reaction between:
* A
base and an
acid, e.g.
NH3 +
HCl â†'
NH4Cl.
* A
metal and an
acid, e.g.
Mg +
H2SO4 â†'
MgSO4 +
H2.
Salts can also form if solutions of different salts are mixed, their ions recombine, and the new salt is insoluble and precipitates (see:
solubility equilibrium).
*
Mark Kurlansky (2002).
Salt: A World History. Walker Publishing Company. ISBN 0142001619.
*
Silting is the natural deposit of salt from sea water
*
Acid salt *
Electrolyte *
Halide *
Ionic bonds
*
Natron *
Old Salt Route *
Salting the earth is the deliberate massive use of salt to render a soil unsuitable for cultivation and thus discourage habitation.
*
Sodium *
Table salt *
Zwitterion *
Salinity
