How Does Atomic Hydrogen Transform into Molecular Hydrogen?

AI Thread Summary
Atomic hydrogen can spontaneously combine to form molecular hydrogen (H2) without a significant energy barrier, meaning it does not require a traditional chemical reaction to occur. The discussion clarifies that producing atomic hydrogen in water is not feasible, particularly through the use of electrodes, as atomic species are inherently unstable and tend to recombine quickly into molecular forms. The mention of water dissociation via radio waves raises questions about the formation of atomic hydrogen and oxygen, but it is noted that such atomic species would only exist briefly before recombining. The dissociation process does not involve a redox reaction, so the presence of electrodes would not influence the outcome. For further reading on this topic, books on chemical kinetics and atomic theory are recommended.
Butterfly_grl
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As simple as the questions seems, I can't seem to find an answer.

1. Can atomic hydrogen by chemical reaction, be converted to molecular hydrogen?

2. what happens when putting electrodes in a reaction that would give me atomic hydrogen? would it be collected at the cathode like molecular hydrogen? The same question for atomic oxygen.

3. Finally, what are the main characteristics of atomic hydrogen and oxygen, and how are they differentiated from the molecular form.

If you please, could you mention any good books that would aid me with the subject ..

Thank you
 
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1. Depends on how you define 'chemical reaction'. I wouldn't call it that. Atoms of hydrogen will spontaneously combine to form H2 molecules. There's no energy barrier ('activated complex') in doing so, so I would not characterize it as a 'proper' reaction.

2. What do you mean putting electrodes 'in the reaction'? You can't really produce atomic hydrogen in water.

3. Atomic species, with the exception of noble gases, are unstable. As I said, they form bonds with no barrier to doing so.
 
First of all thanks for the reply,

When I said water reaction to obtain atomic hydrogen, I meant "the dissociation of water with radio waves", I have emailed a university professor who stated in their email that --quote "we believe the radiation is ATOMIC H and O" and they also said that by examination there was no signs for H2 and O2 spectra.

That is why I thought about what would happen if we put electrodes in the reaction?

Any Ideas!
 
Okay, but the dissociation of water into H+ and OH- or into H* and OH*?

I'd need to know the details of what you're talking about. Saying atomic would indeed seem to imply the latter. (But the dissociation energy would require UV rather than radio waves)

You can naturally form atomic H and O in solution for brief periods of time, but since they're unstable they're going to eventually recombine to form water, H2, O2 etc. You'd normally expect at least some hydrogen atoms to find other ones to combine into H2, so that's probably why they were looking for H2 formation.

Anyway dissociation into the radical species isn't a redox reaction, no ions are formed, so electrodes wouldn't really change anything.
 

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