I suspect that the relevance of sodium hydroxide with respect to tolbutamide is for assaying the quantity of the drug in tablets and other forms for administering it. In other words an individual adds enough sodium hydroxide to a solution of tolbutamide to titrate to neutrality and then computes weight of tolbutamide in the sample from the amount of sodium hydroxide used. Please see the link.
There is no reaction, therefore no equation!!
The balanced equation is: Ca(NO3)2 + 2NaOH → Ca(OH)2 + 2NaNO3
The product is sodium hydroxide. The reaction equation is Na2O + H2O -> 2 NaOH.
Al + NaOH Um this is the "equation" of aluminum and Sodium Hydroxide... Na2CO3(aq) + NaOH (aq) --> NO reaction Sodium carbonate + Sodium hydroxide yields no visible reaction
C25h30n3+ + oh- --> c25h30n3oh
There is no reaction, therefore no equation!!
There is no reaction , because of the Common Ion Effect. The Common Ion is the Hydroxide.
C6H13Na + H2O
Dissolving is not a chemical reaction; any chemical equation.
Any reaction occur.
The balanced equation is: Ca(NO3)2 + 2NaOH → Ca(OH)2 + 2NaNO3
Lithium + water = lithium hydroxide + hydrogen Sodium + water = Sodium hydroxide + hydrogen Potassium + water = Potassium hydroxide + hydrogen
H3NSO3 + NaOH = NaSO3NH2 + H2O
HOC6H4COOH + NaOH = HOC6H4COONa + H2O
The product is sodium hydroxide. The reaction equation is Na2O + H2O -> 2 NaOH.
Al + NaOH Um this is the "equation" of aluminum and Sodium Hydroxide... Na2CO3(aq) + NaOH (aq) --> NO reaction Sodium carbonate + Sodium hydroxide yields no visible reaction
Yes, the water and sodium produce sodium hydroxide and hydrogen!