it is +1 because hydrogen loses an electron to oxygen, while that of oxygen is -1 because oxygen gains an electron from hydrogen; thus making the overall charge distribution:+1 (H)-1(O)-1(O)-+1(H)=0.
+1 for each H, -1 for each O in H2O2.
-1
The chemical symbol for hydrogen peroxide is H2O2
Hydrogen has an oxidation state of +1 whenever it interacts with a more electronegative element to form a compound (NH3) or whenever it forms an ionic-bonded acid (HClO4) or functions as a cation (NaHCO3). Hydrogen has an oxidation state of 0 in its elemental form. (H2) Hydrogen has an oxidation state of -1 whenever it forms and ionic salt as an anion. (LiH).
Platinum is connected to two anionic Chloride ligands and two neutral Ammine ligands Platinum = +2 oxidation state Chlorine = -1 oxidation state Nitrogen = -3 oxidation state Hydrogen = +1 oxidation state
H2O2 is hydrogen peroxide. This is a highly reactive combination of Hydrogen and Oxygen. It is made of two hydrogen atoms and two oxygen atoms covalently linked to one another. The reactivity is due to the very high state of oxidation and the ease with which the compound can form hydroxyl radicals.
yes
Because this is not a peroxide or hydride, we can by rule state that hydrogen is in the +1 oxidation state and that oxygen is in the -2 state.
hydrogen peroxide
Hydrogen peroxide is an oxidising agent, and oxidation is an exothermic reaction. The liver is being oxidised.
The chemical symbol for hydrogen peroxide is H2O2
Hydrogen peroxide may be represented as H2O2 or HO-OH, with contrast to normal oxides the oxidation number of oxygen in peroxide is -1.
Its oxidation number is -1, which is uncommon for hydrogen.
The oxidation state of Hydrogen in the hydronium ion is 1+ and the oxidation state of oxygen is 2-
O = -2 oxidation state H = +1 oxidation state
The oxidation state of oxygen is not -2, it is 0 - because oxygen is an element. Oxide, however, has oxidation state of -2. This is because the anion is O2- and the oxidation state of ions is equal to the charge held by the ion. The exception for oxide is that the oxidation state is -1 in peroxides e.g. H2O2 (hydrogen peroxide)
The oxidation state is +1 for hydrogen and -1 for chlorine.
Hydrogen has an oxidation state of +1 whenever it interacts with a more electronegative element to form a compound (NH3) or whenever it forms an ionic-bonded acid (HClO4) or functions as a cation (NaHCO3). Hydrogen has an oxidation state of 0 in its elemental form. (H2) Hydrogen has an oxidation state of -1 whenever it forms and ionic salt as an anion. (LiH).
In NH3 the oxidation state of Nitrogen is -3. It has 3 extra electrons in three polar covalent bonds, 'donated' from three bonded hydrogen atoms. Hydrogen has an oxidation state of +1 in this compound.