No, it is a niether bronsted lowry base nor bronsted acid. It is a lewis acid because it can accept electron pairs. For this to be a bronsted lowry acid, it would have to donate a proton, which this molecule is incapable of due to its electronic deficiency. I hope this helps.
It is an ACID . ( Hydro) Broic Acid.
The conjugate base of H3BO3 is B(OH)4-.
H3BO3 or boric acid is weak acid of boron often used as an antiseptic, insecticide, flame retardant, neutron absorber, or precursor to other chemical compounds.
The name of H3BO3 is boric acid.
The chemical formula for boric acid is H3BO3.
It is an ACID . ( Hydro) Broic Acid.
The conjugate base of H3BO3 is B(OH)4-.
H3BO3, commonly known as boric acid, is not considered a traditional base; rather, it is classified as a weak acid. It can act as a Lewis acid by accepting hydroxide ions (OH-) in certain reactions, but it does not donate protons like strong acids. In some contexts, it can exhibit mild basic properties, especially in aqueous solutions, but its primary behavior is that of an acid.
H3bo3
Boric Acid
H3BO3 or boric acid is weak acid of boron often used as an antiseptic, insecticide, flame retardant, neutron absorber, or precursor to other chemical compounds.
The name of H3BO3 is boric acid.
Boric acid
The chemical formula for boric acid is H3BO3.
To find the number of moles, divide the given mass of H3BO3 by its molar mass. The molar mass of H3BO3 is calculated as (31.01) + (111) + (3*16) = 61.83 g. Therefore, 61.83 g H3BO3 is equal to 1 mole of H3BO3.
The balanced chemical equation for the reaction between boric acid (H3BO3) and sodium hydroxide (NaOH) is: H3BO3 + 3NaOH → Na3BO3 + 3H2O This reaction results in the formation of sodium borate (Na3BO3) and water (H2O).
The formula for dissolved boric acid is H3BO3, and the formula for hydrogen sulfide gas is H2S.