+5 bro. bcz O is -2 and theres 3 therefore -6.
H is +1
thus Br becomes +5. it is an expection though so dont always think it will be +5
aight Base out :D
No, HBrO3 contains only hydrogen, bromine, and oxygen. In order to be organic it must contain carbon (C).
Each Br atom has an oxidation number of zero.
Bromine typically exists in the -1 oxidation state in ionic compounds. In elemental form or as part of a molecule, bromine can have various oxidation states ranging from -1 to +7.
Well, isn't that a happy little question! In the compound NaBr, bromine has an oxidation state of -1. It's like a little dance between sodium and bromine, creating a balanced and harmonious relationship in the molecule. Just remember, in the world of chemistry, every element has its own special role to play.
Bromine can form a variety of compounds, including hydrogen bromide (HBr), bromine gas (Br2), hydrogen bromate (HBrO3), and sodium bromide (NaBr). These compounds exhibit diverse chemical properties and applications across different industries.
The chemical formula for bromic acid is HBrO3. It consists of hydrogen, bromine, and oxygen atoms.
HBrO4 is more acidic than HBrO3 because HBrO4 has a higher oxidation state of the central atom (Br) than HBrO3, leading to a stronger pull on the proton being donated. This results in HBrO4 being a stronger acid than HBrO3.
Bromine has an oxidation number of negative one, except when with oxygen or flourine.
Bromine oxidation causes ozone depletion. Bromine utilizes the oxygen from ozone to deplete it.
Actually there are a few KBrO3 or NaBrO3 etc - in the bromate ion, bromine is in oxidation state +7
The oxidation number of bromine in bromine trifluoride is +3. This is because each fluorine atom has an oxidation number of -1, and since there are three fluorine atoms in bromine trifluoride, the overall charge must balance out to zero.
The oxidation number of bromine in HOBr is +1. This is because the oxidation number of oxygen is typically -2 and the overall compound is neutral, so the oxidation number of hydrogen is +1. This leaves bromine with an oxidation number of +1 to balance the compound.
No, HBrO3 contains only hydrogen, bromine, and oxygen. In order to be organic it must contain carbon (C).
The oxidation number of bromine in KBr is -1. In ionic compounds, the oxidation number of the cation (K+) is always equal to its charge, which is +1. Therefore, the oxidation number of bromine must be -1 to balance the overall charge of the compound.
Each Br atom has an oxidation number of zero.
Bromine typically exists in the -1 oxidation state in ionic compounds. In elemental form or as part of a molecule, bromine can have various oxidation states ranging from -1 to +7.
HBrO3 is not a salt; it is an acid.