P has +5 oxidation state.Cl has -1 oxidation state.
The oxidation number of Cl in PtCl4^2- is -1. This can be determined by considering that the overall charge of the complex ion is 2-, and each Cl atom has an oxidation number of -1.
The oxidation number for Pt in PtO is +2. Oxygen typically has an oxidation number of -2, so the sum of the oxidation numbers in PtO must be zero since it is a neutral compound.
The oxidation number of Pt in PtCl6 is +4. Each Cl has an oxidation number of -1, and since the overall charge of the complex ion is 0, the oxidation number of Pt must be +4 to balance the charges.
For PtCl6^2-, let x be the oxidation number of Pt, and -1 be the oxidation number of Cl. Since there are 6 Cl atoms each with an oxidation number of -1, the sum of the oxidation numbers must equal the charge of the ion, which is -2. Therefore, x + 6(-1) = -2. Solving for x, we get x = +4. So, the oxidation number of Pt in PtCl6^2- is +4.
The oxidation number of Pt in K2PtCl6 is +4. In this compound, the total charge of potassium (K) is +2 (from 2*K+1), and the total charge of chloride (Cl) is -1 (from Cl-1), so the oxidation number of Pt must be +4 to balance the overall charge of the compound.
The oxidation number of Cl in PtCl4^2- is -1. This can be determined by considering that the overall charge of the complex ion is 2-, and each Cl atom has an oxidation number of -1.
The oxidation number for Pt in PtO is +2. Oxygen typically has an oxidation number of -2, so the sum of the oxidation numbers in PtO must be zero since it is a neutral compound.
The oxidation number of Pt in PtCl6 is +4. Each Cl has an oxidation number of -1, and since the overall charge of the complex ion is 0, the oxidation number of Pt must be +4 to balance the charges.
For PtCl6^2-, let x be the oxidation number of Pt, and -1 be the oxidation number of Cl. Since there are 6 Cl atoms each with an oxidation number of -1, the sum of the oxidation numbers must equal the charge of the ion, which is -2. Therefore, x + 6(-1) = -2. Solving for x, we get x = +4. So, the oxidation number of Pt in PtCl6^2- is +4.
The oxidation number of Pt in K2PtCl6 is +4. In this compound, the total charge of potassium (K) is +2 (from 2*K+1), and the total charge of chloride (Cl) is -1 (from Cl-1), so the oxidation number of Pt must be +4 to balance the overall charge of the compound.
The most common oxidation states for Platinum is +2 and +4.
The oxidation state of Pt in PtCl62- is +4. This is because each Cl atom has an oxidation state of -1, and the overall charge of the complex ion is -2. Thus, the oxidation state of Pt can be calculated as follows: x + 6(-1) = -2, where x is the oxidation state of Pt. Solving for x gives x = +4.
The oxidation number of oxygen is -2 in most of its compounds
The oxidation number of Calcium (Ca) is +2
The only oxidation number is 2+.
The oxidation number of barium is +2.
The oxidation number of Ti in TiO is +2. This is because oxygen typically has an oxidation number of -2 and there is only one oxygen atom in TiO, so the oxidation number of Ti must be +2 to balance out the charges.