The conjugate acid is Hydrogen (H2), the pKa of which is 35.
The pKa of sulfonic acid is < 0
Sodium Hydride is a strong base/alkali. It is an inorganic salt comprising of positively charged sodium ions, and negatively charged hydride (hydrogen) ions: Na+H-. It is a good source of the uncommon hydride ion. (NB Sodium hydride, NaH, is different to Sodium HYDROXIDE, NaOH, which is common table salt.)
The effective range should be the pKa +/- 1. Therefore, the range should be 1.15 to 3.15.
The pKa for HCO3- ----> CO3-2 + H+ is 10.33 I assume you would have a reaction such as K+ HCO3- + H2O ------> K+CO3-2 + H3O+ In which the potassium acts as a neutral ion.
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Sodium hydrogensulfate contains the HSO4- ion therfore it can function as an acid. It's pKa value is 1.9.
sodium hydride
The pKa of sulfonic acid is < 0
eftriaxone sodium has pKa values of 3, 3.2, and 4.1.
Sodium hydride's formula is NaH.
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.
Sodium Hydride is a strong base/alkali. It is an inorganic salt comprising of positively charged sodium ions, and negatively charged hydride (hydrogen) ions: Na+H-. It is a good source of the uncommon hydride ion. (NB Sodium hydride, NaH, is different to Sodium HYDROXIDE, NaOH, which is common table salt.)
Sodium hydride is an ionic compound.
The effective range should be the pKa +/- 1. Therefore, the range should be 1.15 to 3.15.
Doxofylline Pka value is about 9.8.
Sodium Hydride
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