no they dont
Aromatic compounds, conjugated dienes, and compounds with extensive pi-electron systems often show UV absorption bands. These compounds have delocalized electrons that can undergo electronic transitions when exposed to ultraviolet light, leading to absorption of UV radiation.
Elements tend to undergo chemical reactions that increase stability.
Because, In alkenes&alkynes,there exists atleast One double bond(pi bond) which is relatively weaker than sigma bond(There are no pi bonds in alkanes.Hence they are saturated).Hence they are unsaturated.
Alkynes undergo many addition reactions such as: catalytic hydrogenation, addition by electrophilic reagents, hydration with tautomerism, hydroboration reactions, and oxidations. They also undergo nucleophilic addition reactions & reduction. Finally alkynes are the strongest bronsted acids made from only hydrocarbons.
To reach stability
combination reactions
there no distinct similarities elements form compounds so they can undergo reactions simple
Aromatic compounds, conjugated dienes, and compounds with extensive pi-electron systems often show UV absorption bands. These compounds have delocalized electrons that can undergo electronic transitions when exposed to ultraviolet light, leading to absorption of UV radiation.
Compounds DO undergo electrolysis
Elements tend to undergo chemical reactions that increase stability.
Because, In alkenes&alkynes,there exists atleast One double bond(pi bond) which is relatively weaker than sigma bond(There are no pi bonds in alkanes.Hence they are saturated).Hence they are unsaturated.
Do not undergo SN1 reactions.
The ionic reactions are fast because of the compound which after getting dissolved in water are dissociated into ions and are free to move.Due to this effective collisions take place which leads ultimately to a fast reaction.....
They undergo similar reactions because they are both in the same group on the periodic table.
Obviously both of them are acids. Both of these compounds can donate protons to other compounds. Both of these compounds can undergo red-ox reactions and participate in them either as oxidizing or reducing agents. Both of these compounds evolve gaseous hydrogen from the reaction with metals, such as magnesium and zinc.
Alkynes undergo many addition reactions such as: catalytic hydrogenation, addition by electrophilic reagents, hydration with tautomerism, hydroboration reactions, and oxidations. They also undergo nucleophilic addition reactions & reduction. Finally alkynes are the strongest bronsted acids made from only hydrocarbons.
`because of aromatic ring nitrogen lone pair will participate in resonance which make the acidic amine,that's why