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U2 S1 L2 Bronsted Lowry p 553 Homework: p 557 # 1 – 9

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Presentation on theme: "U2 S1 L2 Bronsted Lowry p 553 Homework: p 557 # 1 – 9"— Presentation transcript:

1 U2 S1 L2 Bronsted Lowry p 553 Homework: p 557 # 1 – 9
p 558 section review # 1 -11 (answers on page 581)

2 Upon completion of this lesson, you will be able to:
define Brønsted-Lowry acids and bases define conjugate species identify the Brønsted-Lowry acid, base, conjugate acid and conjugate base in a Brønsted-Lowry acid-base equation define and identify amphoteric substances as examples of species that can either accept or donate a proton illustrate the amphoteric nature of water by writing chemical equations where water acts as an acid when combined with a stronger base and where water acts as a base when combined with a stronger acid compare Arrhenius acid-base theory with Brønsted-Lowry acid-base theory

3 Bronsted-Lowry Theory:
Commonly called the proton transfer theory. An acid is a chemical species (cation, anion, or molecule) that loses protons (H+) in a chemical reaction. A base is a chemical species (cation, anion, or molecule) that gains protons (H+) in a chemical reaction. An acid/base reaction is a reaction in which a proton is transferred from an acid to a base.

4

5 Amphoterism An amphoteric species can act as an acid in one reaction and as a base in another reaction. That is, they can either gain or lose a proton (H+) depending on what it is reacting with.

6 An amphoteric (sometimes called amphiprotic) species must have at least one removable hydrogen atom and have "room" to accept one additional proton in an acid-base reaction. Show that water is an amphoteric species by writing an acid-base equation for water reacting with: boric acid, H3BO3   ethanamine, CH3CH2NH2   Show how HSO3- is amphoteric.

7 Classify each species as amphoteric or not amphoteric
Classify each species as amphoteric or not amphoteric. Justify your choices. hydrosulfuric acid, H2S (aq)   fluoride ion, F-(aq)  hydrogen oxalate, HOOCCOO-(aq)  hydrogen phosphate, HPO42-(aq)   cyanide ion, CN-(aq)

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