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coordinate covalent bonding (1 Viewer)
- Thread starter chunder
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spice girl
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Normally in covalent bonds, atom A gives one electron, and atom B gives one electron, to form a bonding electron pair (a covalent bond). We say both atoms share one electron to form the covalent bond.
In a co-ordinate covalent bond, atom A gives two electrons, while atom B bludges. It's really a lewis acid-base interaction (i hear you don't even learn this! o well), in short one atom donates an electron pair, and the other atom receives an electron pair. In the end the bond formed is still covalent in character, but we know that it isn't from both atoms sharing. It's from one atom sharing and another atom free-riding.
In a co-ordinate covalent bond, atom A gives two electrons, while atom B bludges. It's really a lewis acid-base interaction (i hear you don't even learn this! o well), in short one atom donates an electron pair, and the other atom receives an electron pair. In the end the bond formed is still covalent in character, but we know that it isn't from both atoms sharing. It's from one atom sharing and another atom free-riding.
abdooooo!!!
Banned
it seems random to me as well... damn those smart little freaky atoms, all they want is bondage...
Akira_Tikira
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The only time u use it is in ozone and in hydronium ion. they actually have never proved one to have coordinate covalent bond but guess that is the only way it cna happen....
Your Lewis dot diagram is the best way to show it , but remember at the end each atom must obey the octete rule.
Your Lewis dot diagram is the best way to show it , but remember at the end each atom must obey the octete rule.
Re: Re: coordinate covalent bonding
While there seems to be an extreme 'randomness' in all this, remember that it's all just an elaborate model we have constructed to make sense of chemical interactions. Dative bonds can't be 'seen'.
Twintip
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The most common example of a coordinate covalent bond in our course is probably the hydronium ion in the Acidic Environment module. Hydronium ions form when you get a hydrogen ion (just a proton) bonding with one of the 2 lone pairs of electrons on a water molecule to form H3O+ (aq).
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See, I always figured that the energy used to make ozone went into breaking one of the bonds in the oxygen gas double bond. What I can't figure out is where that energy goes into, if that bond doesn't break - is it in breaking another O2 bond to release atomic oxygen? And if so, why is sunlight still required to produce ozone in the lower atmosphere, where other chemicals are breaking bonds to produce atomic oxygen? Does the formation of a co-ordinate covalent bond still release energy?
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+:: $i[Q]u3 ::+
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when the diatomic oxygen molecule is split by sunlight, uv energy is absorbed to split the double bond, producing two monatomic oxygen free radicals. each of these has a higher energy state than just 'normal' monatomic oxygen; because they have two unpaired electrons. When these radicals combine with other diatomic oxygen molecules, the formation of the coordinate covalent bond will relase energy, but as heat.
does that answer ur question? i'm not really sure what you mean... and i can't answer the bit about sunlight beinf required to produce ozone in the lower atmosphere... have you checked the CC textbook?
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Absolutely
