3.3
~13. Evidence: t-butoxide (pKa ~18) can deprotonate it to form dichlorocarbene.
The pKa value of Doxofylline is approximately 4.22.
The pKa value of pyridine is 5.2.
The pKa value of Acebrophylline is approximately 1.8.
The pKa value of H2O is approximately 15.7.
There are two answers: bicarbonate has two pKa's - because bicarbonate can gain a proton to become carbonic acid or lose a proton to become carbonate. Two reactions; two pKa's. The pKa for bicarbonate carbonic acid reaction is 6.4 The pKa for bicarbonate carbonate reaction is 10.3 Both pKa's are temperature sensitive.
~13. Evidence: t-butoxide (pKa ~18) can deprotonate it to form dichlorocarbene.
The pKa value of Doxofylline is approximately 4.22.
No.
The pKa value of pyridine is 5.2.
The pKa value of Acebrophylline is approximately 1.8.
The pKa value of azithromycin is around 8.4.
The pKa value of H2O is approximately 15.7.
The pKa value of acetylacetone is approximately 8.9.
The pKa value of benzylamine is approximately 10.4.
The pKa value of protonated pyrrole is approximately 0.8.
The pKa value of sodium borohydride is approximately 13.