This is an assymetric alkene.
Markonikov's rule is related to addition reactions so its reverse should be related to elimination reaction so it may be Saytzef's rule which states that during elimination reaction hydrogen is removed from that carbon atom which has the lesser no of hydrogen atoms.
This the addition of hydrogen or proton of an acid to the carbon double bond that has already has the most hydrogen i.e "the rich get the richer" In a reaction involving carbon - carbon double bond, in a electrophilic additon to an alkene, the electrophilic adds in such a way to form the most stable intermediate. HCL, HBr and HI add to alkene to form markovnikov's products.
because it has completely filled p orbital and obeys octet rule
neon has completely filled orbitals, obeys octet rule and is stable. hence it is chemically inert.
This interaction obeys the Lande interval rule: The energy level is split into (J+I) - |J-I| + 1 energy levels, where J denotes the total electron angular momentum and I denotes the nuclear spin.
Markonikov's rule is related to addition reactions so its reverse should be related to elimination reaction so it may be Saytzef's rule which states that during elimination reaction hydrogen is removed from that carbon atom which has the lesser no of hydrogen atoms.
Markovnikov's rule states that functional groups tend to be added to the more substited carbon. For alcohol groups, Oxymercuration-demercuration of a double bond in and alkene results in the Markovnikov product with the hydroxyl group on the more substituted carbon. Hydroboration-Oxidation of a double bond in an alkene results in the Anti-Markovnikov product with the hydroxyl group on the less substituted carbon.
This the addition of hydrogen or proton of an acid to the carbon double bond that has already has the most hydrogen i.e "the rich get the richer" In a reaction involving carbon - carbon double bond, in a electrophilic additon to an alkene, the electrophilic adds in such a way to form the most stable intermediate. HCL, HBr and HI add to alkene to form markovnikov's products.
Markovnikov’s rule is an empirical rule used to predict regioselectivity of electrophilic addition reactions of alkenes and alkynes. It states that, in hydrohalogenation of an unsymmetrical alkene, the hydrogen atom in the hydrogen halide forms a bond with the doubly bonded carbon atom in the alkene, bearing the greater number of hydrogen atoms.
because it obeys huckle rule of aromaticity.
Yes, CS2 Obeys the Octet rule. C double bonds with both Sulfur atoms and then each S has two pair of free electrons.
-4
Cl3CF
4. Carbon obeys the octet rule. In covalent conpounds it has 4 covalent bonds. It can also form ionic compounds (carbides).
I know for sure BBr# & PF5 do not obey the octet rule, but i can't remember the rule of isotopes so I can't say for sure whether or not CO3 -2 obeys it or not.
The product formed when ethane reacts with hydrochloric acid is ethanol. The reaction is referred to as a redox reaction because oxidation and reduction takes place at the same time.
4. Carbon obeys the octet rule. In covalent conpounds it has 4 covalent bonds. It can also form ionic compounds (carbides).