CAtalyst
because kCLO3 already contain oxygen. so, it can't be determine which one oxygen came from.
1-determination of ferrous [Fe+2] ion in a sample solution in(g\L).2-determination of (ferrous and ferric )in a mixture. 3-determination of purity of KClO3 sample. 4-determination of [fe+2] in unknown sample. 5-determination of total iron [Fe] in an iron ore. 6-determination of [Fe+3] in a sample. 7-determination of available chlorine in bleaching powder.
Chlorine is soluable, potassium however I think not. KClO3 is an ionic compound though.
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KClO3 --> KCl + 3O2 is a decomposision or breakdown reaction or reversed oxidation
CAtalyst
because kCLO3 already contain oxygen. so, it can't be determine which one oxygen came from.
There is one potassium, one chlorine and three oxygens in KClO3
1-determination of ferrous [Fe+2] ion in a sample solution in(g\L).2-determination of (ferrous and ferric )in a mixture. 3-determination of purity of KClO3 sample. 4-determination of [fe+2] in unknown sample. 5-determination of total iron [Fe] in an iron ore. 6-determination of [Fe+3] in a sample. 7-determination of available chlorine in bleaching powder.
The formula for potassium chlorate is KClO3.
KClO3+3H2SO3=KCl+3H2SO4
The name of the compound with the formula KClO3 is "potassium chlorate".
KClO3
Chlorine is soluable, potassium however I think not. KClO3 is an ionic compound though.
This isn't true. Only a few compounds, such as hydrogen peroxide (H2O2) and potassium chlorate (KClO3) yield oxygen upon decomposition.
No: KClO3 is the formula for potassium chlorate, but the formula for potassium chloride is simply KCl.
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