Topic: dissociation (Read 5364 times)

funboy · « **on:** October 27, 2006, 11:36:24 AM »

So NaOH is reacted with H20 to seperate Na+ from OH-.
Dissociation absorbs energy to break down the lattice structure
Why does the reaction of NaOH with H20 result in an increase in temperature??

Borek · « **Reply #1 on:** October 27, 2006, 12:27:28 PM »

Hydration.

Yggdrasil · « **Reply #2 on:** October 27, 2006, 02:35:33 PM »

To expand upon Borek's answer, the energy needed to dissociate the NaCl lattice is lower than the energy released by the newly formed interactions between the ions and the water.

jennielynn_1980 · « **Reply #3 on:** October 31, 2006, 10:33:05 AM »

What would the new interactions be? The reaction between OH- ions and water?

Borek · « **Reply #4 on:** October 31, 2006, 11:00:25 AM »

Na⁺ and water. Na⁺ is a small cation, water molecules are dipoles.

jennielynn_1980 · « **Reply #5 on:** October 31, 2006, 11:05:59 AM »

So there is heat released in the dipole reaction between Na+ and and the O- end of the water molecules? Does the OH- ion also form a dipole reaction with the H+ end of the water?

Borek · « **Reply #6 on:** October 31, 2006, 11:20:32 AM »

To some extent. But OH^- and H⁺ are not too stable:

H-O-H + ^-O-H <-> H-O^- + H-O-H

H-O + H⁺ <-> H⁺ + O-H | | H H

Thus it is hard to say they "form a dipole reaction".

Topic: dissociation (Read 5364 times)

funboy

dissociation

Borek

Re: dissociation

Yggdrasil

Re: dissociation

jennielynn_1980

Re: dissociation

Borek

Re: dissociation

jennielynn_1980

Re: dissociation

Borek

Re: dissociation

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