At which point will a buffer solution no longer have buffer capacity: a) once either 11) component of the pair is consumed; b) when a sugar solution is added to the buffered solution; c) when a weak acid that is not part of the buffer is added to the buffer solution; d) when a transition metal salt solution is added to the buffered solution? Explain your answer for each of the four. 12) H,CO; + H,O +→ HCO; + H;O* Since the carbonate ion CO,2 is a conjugate base of the bicarbonate ion HCO;, which in its turn is a conjugate base of carbonic acid H,CO3, would you expect a solution prepared from equal amounts of carbonic acid and carbonate to form a buffer solution? Why or why not? Given the following equation set: HCO; + H,O → CO;2 + H,O*

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11) component of the pair is consumed; b) when a sugar solution is added to the buffered solution; c) when a weak acid that is not part of the buffer is added to the buffer solution; d) when a transition metal salt solution is added to the buffered solution? Explain your answer for each of the four. At which point will a buffer solution no longer have buffer capacity: a) once either Given the following equation set: HCO; + H;O* 12) H,CO; + H,O Since the carbonate ion CO,? is a conjugate base of the bicarbonate ion HCO;", which in its turn is a conjugate base of carbonic acid H,CO;, would you expect a solution prepared from equal amounts of carbonic acid and carbonate to form a buffer solution? Why or why not? HCO, + H,O +→ CO;² + H,O* 一 -2