the valancie of sulfate is 2- its formular is SO42-
By considering the valency of sulfate over phosphate, sulfate can be distinguished from phosphate. Sulfate has a valency of 2 where phosphate has 3.
The formula for a sulphate ion is SO42- so the valency of a sulphate ion is -2.
Valence is a property of atoms (or of particles acting in similar roles), not of molecules, and ammonium sulphate consists of molecules. So it doesn't have a valency. Please see the link.
-1 hco3-1 all bases are - and most if not all the ones with hydrogen in front are -1 for example- hydrogen sulfate (hso4-1)or hydroxide (oh-1)
-1 valency
By considering the valency of sulfate over phosphate, sulfate can be distinguished from phosphate. Sulfate has a valency of 2 where phosphate has 3.
The sulfate anion has a valency of 2-, i.e. it is SO4^2-
The formula for a sulphate ion is SO42- so the valency of a sulphate ion is -2.
Valence is a property of atoms (or of particles acting in similar roles), not of molecules, and ammonium sulphate consists of molecules. So it doesn't have a valency. Please see the link.
iron can make 6 electrons which have outer electrons.iron mixed with oxide will make a gas called iron oxide. iron oxide is used a lot in lab research and testing.
iron sulfate. It can be iron(II) sulfate or iron(III) sulfate.
Coincidence! the oxidation number of sulfur in sufate is +6, in sulfite is +4. Sulfate is SO42-, sulfite is SO32- Personally I do not like using the word valency in this context, valency usually refers to elements- and is the number of bonds that an elemnt can form to other elemnts- it is an old term. In the context of ions charge seems to be a better word.
-1 hco3-1 all bases are - and most if not all the ones with hydrogen in front are -1 for example- hydrogen sulfate (hso4-1)or hydroxide (oh-1)
valency of lithium - 1
valency of Rf =4 valency of Db=5 valency of Sg=6 valency of Bh=7 valency of Hs=8 valency of Mt=unknown
Valency is the number of hydrogen atoms that can combine with [or displace] one atom of the element [or radical] to form a compound. For example, one atom of hydrogen combines with one atom of chlorine to form hydrogen chloride [HCl]; so, the valency of chlorine [chloride] is one. Similarly, the valency of the nitrate radical [NO3] in the compound nitric acid [HNO3] is 1, and the valency of the sulfate radical in the compound sulfuric acid [H2SO4] is 2. For elements that do not combine with hydrogen, the valency is the combining power of the element with another element whose valency is known. Valency may also be defined as the number of electrons that an atom donates or accepts to form the duplet state (i.e., 2 electrons in outermost shell) or octet state (i.e., 8 electrons in outermost shell). The valency of an element [or radical] is always a whole number. Elements [or radicals] with valency one are monovalent, those with valency two are divalent, and those with valency three are trivalent
-1 valency