8.2 pH and pOH of Strong Acids and Bases

    Cards (53)

    • Weak acids and bases only partially dissociate in water
    • Match the property with the correct type of acid or base:
      Dissociation is complete ↔️ Strong acids/bases
      pH is moderate ↔️ Weak acids/bases
      Concentration of H+ is high ↔️ Strong acids
    • What ions do strong acids completely dissociate into in water?
      Hydrogen ions (H+)
    • What is an example of a strong acid?
      Hydrochloric acid (HCl)
    • What is the dissociation of strong acids in water called?
      Complete dissociation
    • What is the definition of pH?
      pH=pH =log[H+] - \log[H^ + ]
    • What type of pH and pOH values do strong acids and bases have?
      Extreme
    • The relationship between pH and pOH is always pH + pOH = 14</latex> at 25°C.

      True
    • Order the following solutions from lowest to highest pH:
      1️⃣ Strong acid
      2️⃣ Weak acid
      3️⃣ Weak base
      4️⃣ Strong base
    • Strong acids and bases have extreme values of pH and pOH.

      True
    • The concentration of H+ or OH- in weak acids and bases is low.

      True
    • What is the formula for calculating pH?
      pH=pH =log[H+] - \log[H^ + ]
    • For strong acids, what is the concentration of H+ ions equal to?
      Molarity of the acid
    • What is the definition of pH in terms of hydrogen ion concentration?
      pH=pH =log[H+] - \log[H^ + ]
    • Weak acids and bases have a high concentration of H+ or OH- ions.
      False
    • What type of pH/pOH values do weak acids and bases have?
      Moderate
    • Weak acids and bases have a low concentration of H+ or OH- ions.

      True
    • For strong acids, the concentration of H+ ions is equal to the molarity of the acid.
    • For strong acids, the pH is solely determined by the concentration of H+ ions.

      True
    • Steps to calculate the pOH of a strong base
      1️⃣ Determine the molarity of the base
      2️⃣ Since strong bases completely dissociate, [OH-] equals the molarity
      3️⃣ Substitute the [OH-] value into the pOH formula
    • Strong bases completely dissociate into hydroxide ions (OH-) in water.

      True
    • What is an example of a strong base?
      Sodium hydroxide (NaOH)
    • Strong acids and bases have extreme pH or pOH values.

      True
    • pOH is a measure of the concentration of hydroxide ions (OH-) in a solution.

      True
    • What type of pH and pOH values do weak acids and bases have?
      Moderate
    • The formula for pH is pH=pH =log[H+] - \log[H^ + ]
    • Strong acids and bases have pH values close to 0 or 14.

      True
    • The concentration of H+ or OH- in strong acids and bases is high
    • What do strong acids dissociate into in water?
      Hydrogen ions (H+)
    • What is the formula for calculating pOH?
      pOH=pOH =log[OH] - \log[OH^ - ]
    • pH is solely determined by the concentration of H+ ions.

      True
    • What is the relationship between pH and pOH at 25°C?
      pH+pH +pOH= pOH =14 14
    • The relationship between pH and pOH is given by the equation pH + pOH = 14.
    • The sum of pH and pOH is always equal to 14.
    • Weak acids and bases have moderate pH and pOH values.

      True
    • What is the formula to calculate pH from the concentration of H+ ions?
      pH=pH =log[H+] - \log[H^ + ]
    • The pOH of a solution measures its alkalinity.
    • What are two effects of pH and pOH on chemical reactions?
      Reaction rates and equilibrium
    • Weak acids and bases dissociate only partially
    • The relationship between pH and pOH is pH+pH +pOH= pOH =14 14
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