It's an inorganic compound that is produced when ATP, energy is released.
biphosphite ?
There are 3 elements. This is meta phosphoric acid.
The formula is Sn3(PO3)2 which contains the PO33- ion. Note that phosphite was used for salts containing HPO32- where the hydrogen is bonded to phosphorus, so in that nomenclature, still commonly used, the formula would be SnHPO3)
The name phosphite is according to IUPAC reserved for PO33- ion, so Cesium phosphite would be Cs3PO3 However no compounds containing PO33- are known to exist. Hypothetical compounds containing it are often used in naming exercises by teachers/colleges/web sites. Phosphite in common use refers to HPO32- ion (IUPAC name phosphonate) and this is the formula taught in some parts of the world, cesium phosphite would therefore be Cs2HPO3
Traditionally the phosphite ion is HPO32-, and it is found in salts of the acid HP(OH)2 traditionally called phosphorous acid, which contains 2 ionizable and 1 non ionizable H (it is bonded to P). As it has two ionizable hydrogens it can form salts which contain HPO(OH)- ions, traditionally named hydrogenphosphite ion.However IUPAC naming has now decreed that the phosphite ion is PO32-, which is fine except that the ion is not yet known to exist! Anything you see labeled "phosphite" will contain HPO22-., which IUPAC name hydrogenphosphite.IUPAC have named the HPO(OH)- ion as dihydrogenphosphite. I am afraid that all of these names are in use, it is really confusing.PO3 3-
PO43- HPO32- H2PO2-
Phosphite is a name that has been applied to both PO32- (recent trend) and HPO32- (historically). Note that the HPO32- is now recommended to be called hydrogen phosphite anion or sometimes the phophonate anion. HPO32-is different from hydrogen carbonate HCO3- where the H is bonded to O, as it contains a H-P bond and that H does not react with base.
There are 3 elements. This is meta phosphoric acid.
Phosphite ion consists of Phosphorus and Oxygen as PO33- and hydrogen phosphites (HPO32-) and dihydrogen-phosphites (H2PO3-) consist of phosphorus, oxygen and Hydrogen. Phosphite salts are generally prepared from Phosphorous Acid (H3PO3)
There are none. The phosphite ion PO33- ion is theoretical. When you try to form compounds containing it you actually get HPO32- where the H atom is bonded directly to phosphorus. Historically these compounds are confusingly called phosphites, and the modern name is phosphonate.
The formula is Sn3(PO3)2 which contains the PO33- ion. Note that phosphite was used for salts containing HPO32- where the hydrogen is bonded to phosphorus, so in that nomenclature, still commonly used, the formula would be SnHPO3)
The name phosphite is according to IUPAC reserved for PO33- ion, so Cesium phosphite would be Cs3PO3 However no compounds containing PO33- are known to exist. Hypothetical compounds containing it are often used in naming exercises by teachers/colleges/web sites. Phosphite in common use refers to HPO32- ion (IUPAC name phosphonate) and this is the formula taught in some parts of the world, cesium phosphite would therefore be Cs2HPO3
Traditionally the phosphite ion is HPO32-, and it is found in salts of the acid HP(OH)2 traditionally called phosphorous acid, which contains 2 ionizable and 1 non ionizable H (it is bonded to P). As it has two ionizable hydrogens it can form salts which contain HPO(OH)- ions, traditionally named hydrogenphosphite ion.However IUPAC naming has now decreed that the phosphite ion is PO32-, which is fine except that the ion is not yet known to exist! Anything you see labeled "phosphite" will contain HPO22-., which IUPAC name hydrogenphosphite.IUPAC have named the HPO(OH)- ion as dihydrogenphosphite. I am afraid that all of these names are in use, it is really confusing.PO3 3-
The oxidation number of phosphorus is +4.