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To compare the pH values of a 2M sodium hydroxide (NaOH) solution and a 2M ammonia (NH3) solution, we need to consider their respective acid-base properties.

Sodium hydroxide (NaOH) is a strong base that completely dissociates in water, releasing hydroxide ions (OH-) into the solution. Since hydroxide ions are responsible for the basicity of a solution, a 2M NaOH solution will have a high concentration of hydroxide ions, resulting in a high pH. In fact, the pH of a 2M NaOH solution is approximately 14, as it is strongly alkaline.

Ammonia (NH3), on the other hand, acts as a weak base. In water, it undergoes partial dissociation, forming ammonium ions (NH4+) and hydroxide ions (OH-). The extent of dissociation is influenced by the equilibrium constant of the reaction. While the pH of a 2M ammonia solution cannot be determined without additional information, it is expected to be lower than 14 due to the weaker basicity of ammonia compared to sodium hydroxide.

To obtain a more precise comparison, the equilibrium constant (pKa) of ammonia's conjugate acid (NH4+) would be needed to calculate the pH of the ammonia solution. Without this information, we can only infer that the pH of a 2M ammonia solution would be lower than 14, but it cannot be determined exactly.

In summary, the pH of a 2M sodium hydroxide solution is approximately 14, indicating strong alkalinity. The pH of a 2M ammonia solution cannot be determined without additional information, but it would be expected to be lower than 14 due to ammonia's weaker basicity compared to sodium hydroxide.

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