The main reason for this is because, within the triple bond there is a high concentration of electrons. Therefore, electrophillic elements like oxygen will be attracted to the bond. These elements can steal electrons from the bond and form a related compound. Better answers will probably follow, but this is a start at least.
it's not hardest to break
they can Barack easily because you mite be working a bout and you twist your foot it can bracken you bones
A triple bond in chemistry is a chemical bond between two chemical elements involving six bonding electrons instead of the usual two in a covalent single bond. The most common triple bond, that between two carbon atoms, can be found in alkynes. Other functional groups containing a triple bond are cyanides and isocyanides. Some diatomic molecules, such as dinitrogen and carbon monoxide are also triple bonded. In-skeletal formula the triple bond is drawn as three parallel lines between the two connected atoms.
Nitrogen has 5 electrons in its outer shell and is therefore trivalent in most compounds. The triple bond in molecular nitrogen (N2) is the strongest, which means it is difficult, and takes allot of energy to, break this bond so that N2 can form compounds. It also explains the ease and associated high energy release of converting nitrogen compounds into elemental N2
Think of a single bond, it only shares one pair of electrons. But a triple bond shares three pairs of electrons. More shared electrons means a stronger bond will result because the other atom's positively charged nucleus is even more attracted to the electrons than the previous bond. This increased attraction pulls the nuclei closer together creating a shorter distance between the two atom. The shorter the bond, the stronger the bond because it requires more energy to separate it
c-n is difficult to break
they can Barack easily because you mite be working a bout and you twist your foot it can bracken you bones
A triple bond in chemistry is a chemical bond between two chemical elements involving six bonding electrons instead of the usual two in a covalent single bond. The most common triple bond, that between two carbon atoms, can be found in alkynes. Other functional groups containing a triple bond are cyanides and isocyanides. Some diatomic molecules, such as dinitrogen and carbon monoxide are also triple bonded. In-skeletal formula the triple bond is drawn as three parallel lines between the two connected atoms.
Nitrogen has 5 electrons in its outer shell and is therefore trivalent in most compounds. The triple bond in molecular nitrogen (N2) is the strongest, which means it is difficult, and takes allot of energy to, break this bond so that N2 can form compounds. It also explains the ease and associated high energy release of converting nitrogen compounds into elemental N2
Think of a single bond, it only shares one pair of electrons. But a triple bond shares three pairs of electrons. More shared electrons means a stronger bond will result because the other atom's positively charged nucleus is even more attracted to the electrons than the previous bond. This increased attraction pulls the nuclei closer together creating a shorter distance between the two atom. The shorter the bond, the stronger the bond because it requires more energy to separate it
c-n is difficult to break
The most common one is molecular nitrogen, with formula N2.
A C-O bond is slightly shorter than a C-C bond (143 pm vs. 154 pm respectively for single bonds).For double bonds the trend is the same, with C=O bond being 121 pm, and a C=C bond being 134 pm.See the Web Links to the left for the source.
The Big Show probably, but at Summer Slam it will be The Great Khali.
Nitrogen is the most common gas found in the atmosphere. It is very stable because it has a triple bond between atoms.
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The most common form is the single bond, carbon atoms can also form double bonds or triple bonds.
Sometimes, but not usually. The covalent bond in HCl, for example, breaks when the gas is dissolved in water, but the bonds in methanol, acetone, and most other organic compounds do not.