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Is FeBr3 a Bronsted Lowery base?
It is a Bronsted-Lowery base because the carbonyl oxygens will readily accept a proton.
What is true of a Bronsted -Lowry base?
A Bronsted-Lowery base accepts H+ ions
Is NH4 plus a bronsted acid?
The Bronsted-Lowry definition of an acid is a species which can give up an H+ ion, and HSO4- can deprotonate to give SO42- and H+. This is where the second hydrogen ion from sulfuric acid comes from.
What acid did Bronsted and Lowry define as a proton donor?
Bronsted-Lowry acid donates hydrogen ions.
Is PbI2 a Bronsted-Lowry acid?
No, PbI2 is not a Bronsted-Lowry acid. Bronsted-Lowry acids are substances that donate a proton (H+ ion) in a reaction, whereas PbI2 is lead iodide, which does not contain any hydrogen ions to donate.
Is FeBr3 a Bronsted Lowery base?
It is a Bronsted-Lowery base because the carbonyl oxygens will readily accept a proton.
Is ClO2 a bronsted acid or base?
Bronsted Base
Is CIO2- a bronsted acid base or both?
It is a Bronsted base.
What is true of Bronsted-Lowry acid?
A Bronsted-Lowry Acid Donates H+ ions
What is a true Bronsted-Lowry acid?
A Bronsted-Lowry Acid Donates H+ ions
What is true of a Bronsted -Lowry base?
A Bronsted-Lowery base accepts H+ ions
What is the definition of a bronsted-Lowry base?
A Bronsted-Lowry base is a proton acceptor.
Is NH4 plus a bronsted acid?
The Bronsted-Lowry definition of an acid is a species which can give up an H+ ion, and HSO4- can deprotonate to give SO42- and H+. This is where the second hydrogen ion from sulfuric acid comes from.
Is ammonium ion NH4 a Bronsted-Lowry base?
Yes, the ammonium ion NH4 is a Bronsted-Lowry base.
What acid did Bronsted and Lowry define as a proton donor?
Bronsted-Lowry acid donates hydrogen ions.
Is PbI2 a Bronsted-Lowry acid?
No, PbI2 is not a Bronsted-Lowry acid. Bronsted-Lowry acids are substances that donate a proton (H+ ion) in a reaction, whereas PbI2 is lead iodide, which does not contain any hydrogen ions to donate.
Is NH4 plus a bronsted acid or base?
NH4+ is a Bronsted acid because it can donate a proton (H+) to another molecule or ion.
