+5 trust me ;)
The oxidation number of P in Na3PO3 is +3. This is because each Na has a +1 oxidation state, and since the overall charge of Na3PO3 is neutral, the oxidation number of P must be +3 to balance out the charges.
Na= +1 P=+5 O=-2
+1 for each K, +5 for P and -2 for each O
It is +3
+1
a
3+
The oxidation number of calcium (Ca) is +2 and the oxidation number of phosphorus (P) is -3. Therefore, in Ca₃P₂, the oxidation number of calcium is +2 and the oxidation number of phosphorus is -3.
Phosphorous, or P, has a zero oxidation number in the element. Common oxidation numbers are:- It has a -3 in phosphides, where it forms the P3- ion It has a +3 in oxidation number in for example P4O6, and PCl3 It has a +5 oxidation number in for example P4O10 and PCl5
The oxidation number of P in H3PO3 is +3. Each hydrogen atom has an oxidation number of +1, and the overall molecule is neutral, meaning the sum of the oxidation numbers must be zero. Since oxygen usually has an oxidation number of -2, the oxidation number of P must be +3 to balance out the charges.
In all phosphates the oxidation number of phosphorus is +5.
The oxidation number of P in P2O5 is +5. This is because oxygen typically has an oxidation number of -2, and there are 5 oxygen atoms in P2O5. The sum of the oxidation numbers in a neutral compound must equal zero, so the oxidation number of P is calculated as +5.
Phosphorous, or P, has a zero oxidation number in the element. Common oxidation numbers are:- It has a -3 in phosphides, where it forms the P3- ion It has a +3 in oxidation number in for example P4O6, and PCl3 It has a +5 oxidation number in for example P4O10 and PCl5
In the phosphate ion (PO4^3-), the oxidation number of phosphorus (P) is +5. Each oxygen atom has an oxidation number of -2, resulting in a total charge of -3 for the phosphate ion.
In all phosphates the oxidation number of phosphorus is +5.
The oxidation number of bismuth can vary. In its most common form, such as in Bi(NO3)3, bismuth has an oxidation number of +3. However, bismuth can exhibit other oxidation states as well, such as +5 in BiO3.
P= -4
The oxidation number of P in P2O5 is +5. This is because oxygen typically has an oxidation number of -2, and there are 5 oxygen atoms in P2O5. The sum of the oxidation numbers in a neutral compound must equal zero, so the oxidation number of P is calculated as +5.
P3+
+5
The oxidation number of phosphorus (P) in PF3 is +3. This is because fluorine (F) has an oxidation number of -1, and the overall molecule PF3 has a total charge of 0.
The oxidation number of P in H3PO3 is +3. Each hydrogen atom has an oxidation number of +1, and the overall molecule is neutral, meaning the sum of the oxidation numbers must be zero. Since oxygen usually has an oxidation number of -2, the oxidation number of P must be +3 to balance out the charges.
The sum of the oxidation numbers for P2O5 is zero. In P2O5, the oxidation number for phosphorus is +5, and each oxygen atom has an oxidation number of -2. Since there are five oxygen atoms, the total sum of the oxidation numbers is 2(+5) + 5(-2) = 0.
The oxidation number for Br2 is 0. This is because each bromine atom in Br2 has a zero oxidation number, as they both have a balanced number of electrons.