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.
Markonikoff's rule states that when an ionic reagent is added to an unsaturated compound, the negative addendum goes to that carbon atom which contains the lesser number of hydrogen atoms or no hydrogen at all.
The rule of zero charge states that in an ionic compound, the total positive charge from cations must equal the total negative charge from anions for the compound to be neutral. This rule allows you to determine the ratio of cations to anions in the compound, aiding in predicting the formula of the ion compound.
Markovnikov's rule states that in the addition of a hydrogen halide (such as HCl or HBr) to an alkene, the hydrogen atom will add to the carbon atom with more hydrogen substituents, while the halogen atom will add to the carbon atom with fewer hydrogen substituents.
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.
The major product of the reaction between 3-methyl-2-pentene and HCl is 2-chloro-3-methylpentane. This reaction follows Markovnikov's rule, where the chlorine atom attaches to the more substituted carbon of the alkene, leading to the formation of the more stable carbocation intermediate.
4. Carbon obeys the octet rule. In covalent conpounds it has 4 covalent bonds. It can also form ionic compounds (carbides).
No, Transition metals do not obey the octet rule in simple compounds , Am is an 'f' block transition metal.
4. Carbon obeys the octet rule. In covalent conpounds it has 4 covalent bonds. It can also form ionic compounds (carbides).
A carbon ion that obeys the octet rule typically has a charge of 4-. This is because carbon has four valence electrons and typically gains four electrons to achieve a full valence shell of eight electrons, conforming to the octet rule.
PF5 obeys the octet rule as it has 5 bonding pairs of electrons around the central phosphorus atom, satisfying the octet. Cs2 does not follow the octet rule as Cs is in Group 1 and can only form ionic bonds. BBr3 is an exception to the octet rule as boron has only 6 electrons around it due to the empty d orbital. CO3 2- also obeys the octet rule as each oxygen atom has a complete octet.
In England you just be over twelve, but nobody obeys that rule
The reaction of ethane with hydrochloric acid and water produces ethanol and hydrogen chloride gas as products. Ethanol is formed by the hydrolysis of ethyl chloride, which is a byproduct of the reaction.