This compound is sodium thiosulphate. S represents +6 oxidation number.
Oxidation no of sulphur is +2.
In Na2S2O3, the oxidation numbers are +1 for sodium (Na), -2 for sulfur (S), and +2 for oxygen (O). This can be determined by considering the overall charge of the compound and known oxidation number rules.
The equivalent weight of sodium thiosulfate (Na2S2O3) is the molar mass divided by the change in oxidation state per mole of electrons transferred in a reaction. In this case, the equivalents of Na2S2O3 is equal to its molar mass (158.11 g/mol) divided by the change in oxidation state involved in the reaction it participates in.
The reaction between Na2S2O3 and HCl involves the oxidation of thiosulfate ions by hydrogen ions. The rate of the reaction can be determined by measuring the initial rate of the disappearance of thiosulfate ions. The reaction is typically carried out in acidic conditions to provide protons for the oxidation process.
The oxidation number of acetate (CH3COO-) is -1. The carbon atom has an oxidation number of +3, each hydrogen atom has an oxidation number of +1, and the oxygen atoms have an oxidation number of -2.
Oxidation no of sulphur is +2.
In Na2S2O3, the oxidation numbers are +1 for sodium (Na), -2 for sulfur (S), and +2 for oxygen (O). This can be determined by considering the overall charge of the compound and known oxidation number rules.
The oxidation number of Sulfur (S) in Na2S2O3 is +2. This is because the overall charge of the compound is zero, and since each Sodium (Na) atom has an oxidation state of +1, the oxidation state of Sulfur must be +2 to balance the charges in the compound.
The equivalent weight of sodium thiosulfate (Na2S2O3) is the molar mass divided by the change in oxidation state per mole of electrons transferred in a reaction. In this case, the equivalents of Na2S2O3 is equal to its molar mass (158.11 g/mol) divided by the change in oxidation state involved in the reaction it participates in.
The reaction between Na2S2O3 and HCl involves the oxidation of thiosulfate ions by hydrogen ions. The rate of the reaction can be determined by measuring the initial rate of the disappearance of thiosulfate ions. The reaction is typically carried out in acidic conditions to provide protons for the oxidation process.
Hydrogen's oxidation number is +1.Chlorin's oxidation number is +1.Oxygen's oxidation number is -2.
The oxidation number of acetate (CH3COO-) is -1. The carbon atom has an oxidation number of +3, each hydrogen atom has an oxidation number of +1, and the oxygen atoms have an oxidation number of -2.
The oxidation number of each hydrogen in H2CO2 is +1, while the oxidation number of each carbon in CO2 is +4. This is because hydrogen usually has an oxidation number of +1, and oxygen usually has an oxidation number of -2.
Silicon's oxidation number is +4.Oxygen's oxidation number is -2
The oxidation number of nitrosyl (NO) is +1. Nitrogen typically has an oxidation number of -3, and oxygen typically has an oxidation number of -2. In NO, nitrogen has a -3 oxidation number and oxygen has a -2 oxidation number, leading to an overall oxidation number of +1 for the nitrosyl ion.
Oxidation number of Nb is +4. Oxidation number of O is -2.
The oxidation number for H is +1, and the oxidation number for O is -1.