1. NH4Cl is an electrically neutral compound, so the sum of the oxidation states must be zero.
2. Nitrogen is a Group 5 element and is assigned an oxidation state of -3.
3. In its covalent compounds with nonmetals, hydrogen is assigned an oxidation state of +1. There are 4 hydrogen atoms, so contributes a charge of +4.
4. The oxidation state of a monatomic ion is the same as its charge. As a Group 7 element, chlorine is assigned an oxidation state of -1.
5. Adding up the oxidation states, -3, +4, -1, gives an overall charge of 0.
The oxidation number of nitrogen in the ammonium ion NH4+ is -3, and the oxidation number of hydrogen is +1. In ammonium chloride NH4Cl, the net charge on NH4 is +1 because the chloride ion Cl- has an oxidation number of -1.
The oxidation number of N in NCl3 is +3. This is because the oxidation number of Cl is -1, and there are three Cl atoms in NCl3, so the overall charge must be balanced by N having an oxidation number of +3.
The oxidation number of NO, nitrogen oxide, is +3.
The oxidation number for N in NH2CONH2 is -3. This is because hydrogen atoms have an oxidation number of +1 each, and oxygen atoms have an oxidation number of -2. By using these values, we can calculate the oxidation number for nitrogen.
Oxidation number of N is +3. Oxidation number of H is -1.
The oxidation number of nitrogen in the ammonium ion NH4+ is -3, and the oxidation number of hydrogen is +1. In ammonium chloride NH4Cl, the net charge on NH4 is +1 because the chloride ion Cl- has an oxidation number of -1.
The oxidation number of N in NCl3 is +3. This is because the oxidation number of Cl is -1, and there are three Cl atoms in NCl3, so the overall charge must be balanced by N having an oxidation number of +3.
The oxidation number of NO, nitrogen oxide, is +3.
The oxidation number for N in NH2CONH2 is -3. This is because hydrogen atoms have an oxidation number of +1 each, and oxygen atoms have an oxidation number of -2. By using these values, we can calculate the oxidation number for nitrogen.
Oxidation number of N is +3. Oxidation number of H is -1.
In N2O5, the oxidation number of N (nitrogen) is +5 and the oxidation number of O (oxygen) is -2.
+1 for Na +5 for N -2 for each O
The oxidation number of N in NF3 is -3. Each F atom has an oxidation number of -1, and since the overall molecule is neutral, the oxidation numbers must add up to zero, making the oxidation number for N -3.
The oxidation number of H in HNO2 is +1, the oxidation number of N is +3, and the oxidation number of O is -2.
The oxidation number of N in (N2H5)2SO4 is -1. This is because the overall charge of the compound is neutral, and the oxidation number of S is +6. By using the oxidation numbers of S and O, we can determine that the oxidation number of N must be -1 to balance the charges in the compound.
The oxidation number of NCS is -1. N has an oxidation number of -3, while S has an oxidation number of +6 in the NCS molecule.
The oxidation number of N in NO2 is +4. Oxygen generally has an oxidation number of -2, and since there are two oxygen atoms in NO2, the total oxidation number of O is -4. Therefore, the oxidation number of N must be +4 to balance the charge of the molecule.