12.1.1 Acids and Bases

    Cards (61)

    • According to the Brønsted-Lowry theory, what is an acid defined as?
      A proton donor
    • According to the Brønsted-Lowry theory, a base is a species that accepts a proton
    • In the Brønsted-Lowry theory, a base accepts a proton.
    • What two species make up a conjugate acid-base pair?
      Differ by a proton
    • In the reaction between HCl and H2O, HCl acts as the acid
    • In the reaction between HCl and H2O, H2O acts as a Brønsted-Lowry base.
    • What forms when an acid donates a proton?
      Conjugate base
    • When a base accepts a proton, it forms its conjugate acid
    • What is a conjugate acid-base pair defined by?
      Proton presence or absence
    • When a base accepts a proton, it forms its conjugate acid
    • What happens to an acid when it donates a proton?
      Forms a conjugate base
    • What is formed when a base accepts a proton?
      Conjugate acid
    • Conjugate acid-base pairs differ by the presence or absence of a proton.
    • Identify the conjugate base of HCl.
      Cl-
    • A conjugate acid-base pair consists of two species that differ by the presence or absence of a proton
    • Match the acid with its conjugate base:
      HCl ↔️ Cl-
      NH4+ ↔️ NH3
      H2O ↔️ OH-
    • What happens in the reaction between HCl and H2O according to conjugate acid-base theory?
      HCl donates a proton
    • Amphoteric substances can act as both acids and bases.
    • Key examples of amphoteric substances include water and amino acids
    • What is the amphoteric behavior of water demonstrated by?
      Donating and accepting protons
    • What happens when strong acids dissolve in water?
      They ionize completely
    • Weak acids ionize completely in water.
      False
    • According to the Brønsted-Lowry theory, an acid is a species that donates a proton
    • What role does a base play in the Brønsted-Lowry theory?
      Accepts a proton
    • In the reaction HCl + H2O, which substance acts as the acid according to the Brønsted-Lowry theory?
      HCl
    • Match the acid with its conjugate base:
      HCl ↔️ Cl-
      NH4+ ↔️ NH3
      H2O ↔️ OH-
    • Amphoteric substances can donate and accept protons
    • Water is an example of an amphoteric substance.
    • What is the definition of an amphoteric substance?
      Acts as both acid and base
    • Amphoteric substances can donate and accept protons
    • What is the amphoteric reaction of water when acting as an acid?
      H2OH+H_{2}O \rightleftharpoons H^ ++ +OH OH^ -
    • What is the amphoteric reaction of amino acids when acting as a base?
      R - NH_{2} + H^ + \rightleftharpoons R - NH_{3}^ +</latex>
    • Water acts as a base when reacting with HCl to form H3O+H_{3}O^ +.
    • What happens to strong acids when dissolved in water?
      They ionize completely
    • Weak acids like CH3COOHCH_{3}COOH only partially ionize in water.
    • Partial ionization of a weak acid in water establishes an equilibrium.
    • What does the Brønsted-Lowry theory define an acid as?
      Proton donor
    • The Brønsted-Lowry theory defines a base as a species that accepts a proton.
    • In the reaction between HCl and water, water acts as a base.
    • Match the species with its role in the reaction between HCl and water:
      HCl ↔️ Acid
      H2OH_{2}O ↔️ Base
      H3O+H_{3}O^ + ↔️ Conjugate acid
      ClCl^ - ↔️ Conjugate base
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