NH₄NO₃ (ammonium nitrate), the oxidation number of nitrogen in the NH₄⁺ ion is -3, and in the NO₃⁻ ion is +5. The overall charges balance with the ammonium ion being +1 and the nitrate ion being -1.
If you are referring to the nitrate ion, NO3-, the oxidation number of oxygen would be O2- and nitrogen would be N5+. If you are talking about nitrogen trioxide NO3, the oxidation number of oxygen would be O2- and nitrogen would be N6+. Edit: Nitrogen trioxide does not exist in its free state.
The oxidation number of nitrogen in ammonium nitrite (NH4NO2) is +3. In the ammonium ion (NH4+), nitrogen has an oxidation number of -3 and in the nitrite ion (NO2-), nitrogen has an oxidation number of +3.
The oxidation number for NO3 is -1. Since oxygen is usually assigned an oxidation number of -2 in compounds, the total oxidation number for the nitrate ion (NO3) must be -1 to account for the three oxygens.
The oxidation number of nitrogen in NO3 is +5. Each oxygen atom carries a charge of -2, which totals -6 for the three oxygen atoms in NO3. Since the overall charge of NO3 is -1, the nitrogen atom must have an oxidation number of +5 to balance the charges.
Nitrate ion is a anion. Nitogen shows +5 in this ion.
The oxidation number of nitrogen in the nitrate ion NO3- is 5
NH₄NO₃ (ammonium nitrate), the oxidation number of nitrogen in the NH₄⁺ ion is -3, and in the NO₃⁻ ion is +5. The overall charges balance with the ammonium ion being +1 and the nitrate ion being -1.
If you are referring to the nitrate ion, NO3-, the oxidation number of oxygen would be O2- and nitrogen would be N5+. If you are talking about nitrogen trioxide NO3, the oxidation number of oxygen would be O2- and nitrogen would be N6+. Edit: Nitrogen trioxide does not exist in its free state.
The oxidation number of nitrogen in ammonium nitrite (NH4NO2) is +3. In the ammonium ion (NH4+), nitrogen has an oxidation number of -3 and in the nitrite ion (NO2-), nitrogen has an oxidation number of +3.
The oxidation number for NO3 is -1. Since oxygen is usually assigned an oxidation number of -2 in compounds, the total oxidation number for the nitrate ion (NO3) must be -1 to account for the three oxygens.
The oxidation number of nitrogen in NO3 is +5. Each oxygen atom carries a charge of -2, which totals -6 for the three oxygen atoms in NO3. Since the overall charge of NO3 is -1, the nitrogen atom must have an oxidation number of +5 to balance the charges.
The oxidation number for calcium is +2. The oxidation number for nitrate (NO3-) is -1.
The oxidation number of Ag in AgNO3 is +1 because the oxidation number of NO3 (nitrate ion) is -1, and the overall compound has a neutral charge.
One example of a compound with an oxidation number of +5 is phosphorus pentachloride (PCl5). In this compound, phosphorus has an oxidation number of +5 due to the electronegativity difference with chlorine.
The oxidation number of nitrogen in an azide ion (N3-) is -1. This is because each nitrogen atom carries a charge of -1 in the ion, resulting in a total charge of -3 for the three nitrogen atoms.
The oxidation number of the nitrite ion (NO2-) is -1. The oxidation number of nitrogen in the nitrite ion is +3, and each oxygen atom has an oxidation number of -2.