3! H3PO3....so its radical's valency is 3....so...eventually H gets 3
The formula is H3PO4 O | HO-P-OH | OH O HO-P-OH H3PO4 OH
Phosphorus itself is not typically corrosive. However, certain forms of phosphorus, such as white phosphorus, can react with oxygen in the air to form phosphoric acid which can be corrosive. White phosphorus is also highly flammable and toxic.
Phosphorus is a chemical element, while phosphoric acid is a compound made from phosphorus. Phosphoric acid is found in some soft drinks like Coca-Cola as an additive. The "phosphorud" you saw in the ingredients list of Coke is likely a misspelling, and it should actually be "phosphoric acid."
Phosphorus was historically extracted from phosphate rock by heating it with sand and carbon in a process called the "electric furnace method." This method produces phosphorus as a white phosphorus vapor that is then condensed underwater to form solid white phosphorus. Nowadays, most phosphorus is extracted from phosphate rock using the wet process, which involves treating the rock with sulfuric acid to produce phosphoric acid.
Phosphorus trichloride is a chemical compound with the formula PCl3. It is a colorless, fuming liquid that reacts violently with water to form hydrochloric acid and phosphorous acid. It is primarily used as a reagent in organic chemistry synthesis.
Hypophosphorous acid is a monobasic acid, meaning it can donate one hydrogen ion (proton) in a chemical reaction. This makes it a weaker acid compared to other phosphorus acids like phosphoric acid.
I think , the basicity of sulphuric acid is 1.
HCl is an acid, so it does not possess basicity but rather acidity. Its basicity is 0.
it is acidic.
Nitric acid is a strong acid, so it does not exhibit basicity. Instead, it is an acidic compound that can donate a proton (H+) in solution.
The basicity of an acid is equivalent to the number of protons that one molecule can donate. A nitric acid molecule can only donate one proton. Therefore, it has the basicity of one.
Phosphoric acid is a triprotic acid, meaning it can donate three protons (H+ ions). Therefore, it shows three levels of basicity.
COOH COO- l l COOH --------- COO- + 2H+.So oxalic acid is monoprotic acid its basidity is 2.
a number of measure of proton reacting with a base
boric acid or H3BO3, is a weak acid, with basicity 1 it acts as a lewis acid in its aqueous solution.... H3BO3 + H2O <====> B [(OH)4]- + H+ it doesnt donate a proton, but it accept OH_ve frm water... so its a weak monobasic acid
Basicity of an acid refers to the number of hydrogen ions (protons) that it can donate in a chemical reaction. The higher the basicity of an acid, the more readily it donates protons to other substances. This is closely related to the strength of the acid.
Carbonic acid is a weak acid that can donate two protons, making it a diprotic acid. Therefore, its basicity is 2, indicating that it can neutralize two moles of a strong base for complete neutralization.