53.7 mL of 0.1049 M triethylamine ((CH3CH2)3N) is titrated with 0.0504 M HCIO3. Determine the pH of the titrated solution after 32.1 mL HCIO3 has been added. The base-dissociation constant for triethylamine at 25°C is 5.7 × 10-4. X Did you determine the balanced chemical equation for the neutralization reaction between the weak base and the strong acid? Did you consider how the volume changed during the addition of acid to the weak base? Did you recall the relationship between the ion product constant of water and the concentration of hydronium and hydroxide ions in an aqueous solution?
53.7 mL of 0.1049 M triethylamine ((CH3CH2)3N) is titrated with 0.0504 M HCIO3. Determine the pH of the titrated solution after 32.1 mL HCIO3 has been added. The base-dissociation constant for triethylamine at 25°C is 5.7 × 10-4. X Did you determine the balanced chemical equation for the neutralization reaction between the weak base and the strong acid? Did you consider how the volume changed during the addition of acid to the weak base? Did you recall the relationship between the ion product constant of water and the concentration of hydronium and hydroxide ions in an aqueous solution?
Chemistry
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ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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Transcribed Image Text:53.7 mL of 0.1049 M triethylamine ((CH3CH2)3N) is titrated with 0.0504 M HCIO3. Determine the pH of the titrated solution after
32.1 mL HCIO3 has been added. The base-dissociation constant for triethylamine at 25°C is 5.7 × 10-4.
X
Did you determine the balanced chemical equation for the neutralization reaction between the weak base and the strong acid? Did you
consider how the volume changed during the addition of acid to the weak base? Did you recall the relationship between the ion product
constant of water and the concentration of hydronium and hydroxide ions in an aqueous solution?
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