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An acid donates an H+, and a base accepts an H+.
Because a bronsted-lowry acid donates proton such as ( H+ ) and water can donate H+ such as ( H2O + NH3 ---> NH4+ + OH- ) here water donated H+ to ammonia to produce NH4 ( which is an acid )
The reaction would shift to balance the change
An acid donates an H+ and a base donates an OH
A Bronsted-Lowry Acid Donates H+ ions
Bornsted Lowry base is an acid base reaction theory. The ideal came from Johannes Nicolaus Bronsted and Thomas Martin Lowry in 1923. The theory is that acid can lose or donate a proton.
A Brønsted-Lowry base accepts H+ ions.
The acid donates protons to the base to form the products.
An acid donates an H+, and a base accepts an H+.
An acid donates an H+, and a base accepts an H+. (apex).
An acid donates an H+, and a base accepts an H+. (apex).
An acid donates an H+, and a base accepts an H+.
An acid donates an H+, and a base accepts an H+. - Apex
The product will be a conjugate base.
An acid donates an H+, and a base accepts an H+. - Apex
Acid + base conjugate base + conjugate acid
An acid donates an H+, and a base accepts an H+. (apex).