How is hydrogen more stable in diatomic form?

AI Thread Summary
The discussion centers on the stability of hydrogen when an additional electron is added to its 1s sublevel, leading to the formation of molecular hydrogen (H2). It is noted that while atomic hydrogen requires 13.6 eV to break apart, H2 only requires 4.6 eV, indicating that H2 is more stable. The stability of a covalent bond is attributed to quantum mechanical effects, particularly symmetry and the balancing of paired electrons in sub-shells. The concept of the octet rule is mentioned, but for hydrogen and helium, the "octet" consists of just two electrons. The geometry of electron distribution plays a crucial role in stability; electrons positioned on opposite sides of a proton enhance stability. The discussion emphasizes that in H2, electrons can concertedly hop between atoms, allowing their wavefunctions to spread and increasing electrostatic attraction, which contributes to the overall stability of the molecule.
vanmaiden
Messages
101
Reaction score
1
Hello Physicsforums,

I'm curious to know what stability hydrogen receives through adding one more electron to its 1s sublevel level. The whole sublevel is at the same energy state, so why must it fill that one more space to attain stability? What does a full 1s orbital do to make it stable? I can see why it's inert, but we stay it's more stable.

Thanks,

Vanmaiden
 
Chemistry news on Phys.org
Is molecular hydrogen said to be more stable than atomic hydrogen? Who by? And in what context?

You need 13.6eV to break apart a H atom, but only 4.6eV to break apart an H2 molecule.

The stability of a covalent bond is a QM effect from symmetry.
Paired electrons in sub-shells sort-of "balance out the load" on an atom.
But you should be aware that molecular energy levels are not the same as the atomic ones.

See also:
http://www.eng.fsu.edu/~dommelen/quantum/style_a/hmol.html
http://hyperphysics.phy-astr.gsu.edu/hbase/molecule/hmol.html
 
The reasoning here is the same as for all elements: the octet rule.
The only difference is that hydrogen and helium are so simple that their "octet" is only two atoms.

This stuff is really all about geometry. Everything in the universe is in a 3d matrix (well, 4d really, but we're being simplistic here). If there are electrons on opposite sides of a proton then everything is much more stable. Imagine... imagine a tight rope walker. When he's walking along the rope holding nothing, he's able to balance and move forward slowly. Give him a pole and he has some weight balancing him out horizontally, and he can move along a bit more steadily. Make him carry a weight in one hand though, and
he's less stable.
(Keep in mind that this is a completely different set of rules [kinetics], but I hope that it helps to illustrate the point a little.)
 
Though electrons in the ground state of hydrogen are symmetrically distributed ... but it's balanced here to pair spin-up and spin-down.
 
vanmaiden said:
Hello Physicsforums,

I'm curious to know what stability hydrogen receives through adding one more electron to its 1s sublevel level. The whole sublevel is at the same energy state, so why must it fill that one more space to attain stability? What does a full 1s orbital do to make it stable? I can see why it's inert, but we stay it's more stable.

Thanks,

Vanmaiden

Yes, a H2 molecule is 4.6 eV more stable than 2 hydrogen atoms. However, the electrons are only seldomly both in the 1s orbital of the same atom. So it is quite misleading to speak of "filling up" the sublevel. Rather in H2 there is the possibility of concerted hopping of the electrons between the two atoms. The atomic wavefunctions are thus allowed to spread out in direction of the bond and at the same time reducing their extension in the direction perpendicular to the bond. This leads to an increased electrostatic attraction responsible for bonding.
 

Thread 'Humidity of a saturated NaCl solution with anticaking additive'

I want to test a humidity sensor with one or more saturated salt solutions. The table salt that I have on hand contains one of two anticaking agents, calcium silicate or sodium aluminosilicate. Will the presence of either of these additives (or iodine for that matter) significantly affect the equilibrium humidity? I searched and all the how-to-do-it guides did not address this question. One research paper I found reported that at 1.5% w/w calcium silicate increased the deliquescent point by...
View full post »

Thread 'Why does having 8 valence electrons make an element inert?'

I was introduced to the Octet Rule recently and make me wonder, why does 8 valence electrons or a full p orbital always make an element inert? What is so special with a full p orbital? Like take Calcium for an example, its outer orbital is filled but its only the s orbital thats filled so its still reactive not so much as the Alkaline metals but still pretty reactive. Can someone explain it to me? Thanks!!
View full post »

Thread 'Resists for etching Aluminium with NaOH'

I'm trying to find a cheap DIY method to etch holes of various shapes through 0.3mm Aluminium sheet using 5-10% Sodium Hydroxide. The idea is to apply a resist to the Aluminium then selectively ablate it off using a diode laser cutter and then dissolve away the Aluminium using Sodium Hydroxide. By cheap I mean resists costing say £20 in small quantities. The Internet has suggested various resists to try including... Enamel paint (only survived seconds in the NaOH!) Acrylic paint (only...
View full post »

Similar threads

Chemistry: Electron Configurations & Reactivity
Replies
4
Views
3K
Strong Acid Reactions: Explaining HCl + H2O → Cl- + H3O+
Replies
3
Views
5K
How do covalent bonds of the same molecule form?
Replies
5
Views
3K
Hydrogen anion stable when left unperturbed ?
Replies
1
Views
1K
Why is a beam supported by two cables more stable than one?
Replies
2
Views
1K
If water is covalent, why is hydrogen H+ ?
Replies
3
Views
5K
Water molecules effect on Hydrogen bonds in precipitation
Replies
2
Views
2K
Why Does Diatomic Hydrogen Form Despite Zero Net Electric Field?
Replies
1
Views
1K
Chemistry Conformation Stability of Ethane-1,2-Diol
Replies
1
Views
2K
I Degenerated perturbation theory
Replies
3
Views
1K

Hot Threads

Recent Insights

Back
Top