chromic acid + sodium carbonate -> sodium chromate + water + Carbon Dioxide
Chromium (II) Carbonate. Although I'm not sure Chromium (II) can form, there might be an overall charge on your formula there...
chromic hydroxide means Chromium (iii) hydroxide, Cr(OH)3
The chemical formula for chromic acetate is Cr(C2H3O2)3.
This is a neutralization reaction. This reaction should result in producing a salt and water. Sodium chromate is the salt in this instance.
Stainless steel, aluminum, and lead are commonly considered safe when in contact with chromic acid. They have a high resistance to corrosion from chromic acid and can be used in certain applications without significant risk of reaction or degradation. It is important to always consult with chemical compatibility charts and guidelines to ensure safety when working with chromic acid.
Chromium (II) Carbonate. Although I'm not sure Chromium (II) can form, there might be an overall charge on your formula there...
The chromic ion is (CrO4)2-.
The chemical formula of chromic sulfite is Cr2(SO3)3.
Equation: H2CrO4 + H2O <=> H3O+ + HCrO4- <=> H3O+ + CrO42-
chromic hydroxide means Chromium (iii) hydroxide, Cr(OH)3
The chemical formula for chromic acetate is Cr(C2H3O2)3.
This is a neutralization reaction. This reaction should result in producing a salt and water. Sodium chromate is the salt in this instance.
Stainless steel, aluminum, and lead are commonly considered safe when in contact with chromic acid. They have a high resistance to corrosion from chromic acid and can be used in certain applications without significant risk of reaction or degradation. It is important to always consult with chemical compatibility charts and guidelines to ensure safety when working with chromic acid.
The chemical formula for chromic dihydrogen phosphate is Cr(H2PO4)3.
Cr2(SO3)3
The reaction of isopropyl alcohol (2-propanol) with chromic acid typically results in the oxidation of isopropyl alcohol to acetone. The balanced chemical equation for this reaction can be expressed as: [ \text{C}_3\text{H}_8\text{O} + \text{CrO}_3 \rightarrow \text{C}_3\text{H}_6\text{O} + \text{Cr}^{3+} + \text{H}_2\text{O} ] In this reaction, isopropyl alcohol is oxidized, and chromic acid is reduced.
Acetophenone can be converted into benzoic acid through a chemical reaction called oxidation. This reaction involves the use of a strong oxidizing agent, such as potassium permanganate or chromic acid, which adds oxygen atoms to the acetophenone molecule, ultimately forming benzoic acid.