+1-
Apex
-1 oxidation state, Mg2+Cl2-; it is te anion Cl-.
Magnesium chloride, MgCl2, has 2 as its oxidation number.
Also the magnesium oxide, MgO.
two
the answer is boner!
First you should look at your oxidation rules and see what Cl has then times that by 2 which is ..?
2+2=4
4.329
hgnh2cl
This oxidation state is 1.
Oxidation state of any element in its elemental state is 0
+1 is the oxidation state of Hg in Hg2CI2.
4. There are two Hg's and two Cls.
For the one oxidation state. HgNO3 for the two oxidation state. Hg(NO3)2
The oxidation state of Hg in Hg2Cl2 is +1.It has +1 state.
This oxidation state is 1.
State of Hg in Hg2Cl2 is 1
There are two chlorides of mercury Mercury I chloride: Hg2Cl2 Mercury II chloride: HgCl2
The oxidation state of S in HgS is -2. Since Hg is +2, to make a neutral charge S must be -2.
Oxidation state of any element in its elemental state is 0
+1 is the oxidation state of Hg in Hg2CI2.
4. There are two Hg's and two Cls.
For the one oxidation state. HgNO3 for the two oxidation state. Hg(NO3)2
In HgS the oxidation numbers are Hg +2 and S -2
the chemical equation for the combustion of HCL and NH3 is as follows.NH3 + HCl -----> NH4Cl.the product formed is amoonium chloride.
S2Cl2 = disulfur dichloride, Cl-S-S-ClHg2Cl2= mercury (I) chlorideThe mercury (I) cation is Hg2^2+. It is sort of a diatomic ion. In the +1 oxidation statethere is no single Hg. In other words, HgCl does not exist. HgCl2 does exist, except in this case, mercury is in the +2 oxidation state.The only thing you have to remember is that there are no single mercury (I) ions, mercury (I) exists as Hg2^2+.I don't think Hg2Cl2 will be very ionic, what with an electronegativity difference of 1.16. That translates to a percent ionic character of 28.6 for the Hg-Cl bond.Hg2Cl2 would NOT be named mercury chloride. Mercury requires a Roman numeral in the stock system.Or you could name Hg2Cl2 as mercurous chloride.