P = +5 PO4^3- = -3 4(-2) + p = -3 P =5
germanium has an oxidation number of +4, phosphate is PO4 has an oxidation number -3. Ge3(PO4)4
58.1g [Ca(PO4)] X 1 mol [Ca(PO4)] X 2 mol (PO4) X 1 mol (P) X 30.97g (P) = 11.6g (P) 310.2g [Ca(PO4)] 1 mol[Ca(PO4)] 1 mol (PO4) 1 mol (P) Sorry about the formatting, im trying to show stoichiometry.
In H3PO3 each H is 1+ for a total of 3+. Each O is 2- for a total of 6-. So, there is 3+ and 6- giving a net of 3-. In order to make the molecule neutral, P must have an oxidation state of 3+.
This compound is insoluble in water. Calcium generally shows +2 oxidation number.
P = +5 PO4^3- = -3 4(-2) + p = -3 P =5
germanium has an oxidation number of +4, phosphate is PO4 has an oxidation number -3. Ge3(PO4)4
58.1g [Ca(PO4)] X 1 mol [Ca(PO4)] X 2 mol (PO4) X 1 mol (P) X 30.97g (P) = 11.6g (P) 310.2g [Ca(PO4)] 1 mol[Ca(PO4)] 1 mol (PO4) 1 mol (P) Sorry about the formatting, im trying to show stoichiometry.
In H3PO3 each H is 1+ for a total of 3+. Each O is 2- for a total of 6-. So, there is 3+ and 6- giving a net of 3-. In order to make the molecule neutral, P must have an oxidation state of 3+.
+5; each oxygen is -2 giving -8 reduced by the ionic charge of -3 to +5
This compound is insoluble in water. Calcium generally shows +2 oxidation number.
+5 because the phosphate ion has an overall -3 charge. The oxygens total -8, and -8+5=-3.
Pis in the p block. It shows +3 and +5 oxidation numbers.
if p 1.52 to convert in p2o5 1.52x 2.5=3.8p2o5
if p 1.52 to convert in p2o5 1.52x 2.5=3.8p2o5
+5 oxidation state
It is customary to assign oxygen an oxidation number of -2, except in peroxides and superoxides. Using this convention, phosphorus must have an oxidation number of +3 to balance the charges in P4O6. (6 X 2 = 4 X 3)