C2H2N, is not a molecule per se, it is merely the empirical formula for the molecule C8H8N4, which I do not know what it is.
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Yes! Since it has un-paired electrons: ) Actually C2 isn't paramagnetic. There's certain type of diagram how to determine whether molecule is paramagnetic or not. And C2 isn't. Instead C2(2+) would be paramagnetic.
No, the "C2" molecule does not exist, because it is chemically impossible to bind two C atoms together without any (at least 2) other atoms (eg. 2 H's). The maximum number of diatomic covalent C-C bonds is three, while C atoms require four cov. bonds to obey the octet rule.
It is planar as an aromatic system. Without the tables in front of me, I'm pretty sure that it is C2v, it has a C2 axis right down the centre of the molecule (make it so that 1 side is symmetrical with the other)
C2H2N, is not a molecule per se, it is merely the empirical formula for the molecule C8H8N4, which I do not know what it is.
It would be a molecule. It cannot be considered a compound because it contains atoms of only one element.
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Carbon 2, a molecule consisting of 2 carbon atoms.
Butyne has 4 carbons and a triple bond. The triple bond can be between C1 and C2, or C2 and C3 so there are 2 different "forms" or isomers of butyne.
Yes! Since it has un-paired electrons: ) Actually C2 isn't paramagnetic. There's certain type of diagram how to determine whether molecule is paramagnetic or not. And C2 isn't. Instead C2(2+) would be paramagnetic.
What is 'c2' ; Never heard of it. However, if you mean H3C-CH3 ( ethane) H2C=CH2 ) ethene) HC///CH (ethyne) Note the different spellings for each molecule.
This is called an induced dipole. Let's say HCl, which is polar (which means the electrons like to hang out on one side more than the other), comes close to a C2 molecule. C2 looks like this C=C. If the H-Cl comes close, the negative electrons in C2 will be attracted to the Hydrogen (because it's positive), just slightly. This will make C2 polar, because of its proximity to a polar molecule.
Here~ D2 D2 D2 B D2 C2 B A C2 C2 C2 A C2 B A G D2 D2 D2 G G A B C2 C2 C2 C2 D2 C2 B A G D2 D2 D2 B D2 D2 D2 B D2 D2 D2 E2 D2 D2 B C2 C2 C2 A C2 C2 C2 A C2 C2 C2 B2 C2 B A G
12c
A c2 c2 c2
Happy Birthday Flute Chords G G A G C2 B G G A G D2 C2 G G G2 E2 C2 C2 B A F2 F2 E2 C2 D2 C2