It is a Bronsted-Lowery base because the carbonyl oxygens will readily accept a proton.
No, in an aqueous solution it is an Bronsted-Lowery acid due to the nature of the hydrated Fe3+ ion (Fe(H2O)63+).
No, CO2 is a Lewis acid.
A Bronsted-Lowery base accepts H+ ions
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A Bronsted-Lowery base accepts H+ ions
The anion of Lowery-Bronsted acid acts as the conjugate base in this case, for example the conjugate base of HCl is Cl anion.
It is based on the proton. A proton acceptor is a base whereas a proton donour is known as an acid.
A Bronsted-Lowery base accepts H+ ions
removing the my new software from my computer. then after suddenly receive that program from recycle bin. The software is most participator of our computer. Its crates a lot of lose data in computer.
A Bronsted-Lowery base accepts H+ ions
The anion of Lowery-Bronsted acid acts as the conjugate base in this case, for example the conjugate base of HCl is Cl anion.
It is based on the proton. A proton acceptor is a base whereas a proton donour is known as an acid.
Bases are proton acceptors H+ :B The base must have a pair of e- H-B+
Well, the first step in Fischer Esterification is protonation of the carboxylic acid.
Bronsted Base
It is a Bronsted base.
base
no, arhenious base is also a bronsted lowry base
A Bronsted-Lowry base is a proton acceptor.