In this polymerization reaction, growing polystyrene radical which normally would add on a polymer reacts with te chain transfer agent to end the original chain
In presence of which group vinylic free radical polymerization readily takes

In this polymerization reaction, growing polystyrene radical which normally would add on a polymer reacts with te chain transfer agent to end the original chain What is the initator in the vinylic free radical polymerization ?

In this polymerization reaction, growing polystyrene radical which normally would add on a polymer reacts with te chain transfer agent to end the original chain Which of the following are inhibitors?

These electron donating groups will be able to stabilize the chain carrying carbocation intermediate. Greater the stability of the carbocation intermediate, more facile is the cationic polymer In presence which group readily undergo vinylic cationic polymerization ?

Polymerization involves various mechanisms depending upon the initiator. If initiator generates free radical, addition polymerization takes place through free radical mechanisms. If H^(+) is initiator and electron releasing group is present, cationic polymerization takes place. IF electron withdrawing group is present and KNH_(3) is initiator, anionic polymerization takes place. Which of the following will undergo cationic polymerization in presence of H^(+)

Polymerization involves various mechanisms depending upon the initiator. If initiator generates free radical, addition polymerization takes place through free radical mechanisms. If H^(+) is initiator and electron releasing group is present, cationic polymerization takes place. IF electron withdrawing group is present and KNH_(3) is initiator, anionic polymerization takes place. Which of the following will undergo anionic polymerization in presence of KNH_(2)

Polymerization involves various mechanisms depending upon the initiator. If initiator generates free radical, addition polymerization takes place through free radical mechanisms. If H^(+) is initiator and electron releasing group is present, cationic polymerization takes place. IF electron withdrawing group is present and KNH_(3) is initiator, anionic polymerization takes place. Which of the following will induce anionic polymerization

(A) : Polybutadiene is an example of chain growth polymer (R) : In chain growth polymer the reactive particles may be free radicals or ions (cations or anions) to which monomers get added by a chain reaction

These electron donating groups will be able to stabilize the chain carrying carbocation intermediate. Greater the stability of the carbocation intermediate, more facile is the cationic polymer Which of the following readily undergoes cataionic polymerization ?

The products of bond breaking, shown below, are not stable, and cannot be isolated for prolonged study. Such species are referred to as reactive intermediate, and are belived to be transient intermediates in many reactions. The general structures and names of four such intermediates are, Charged Intermediates Uncharged Intermediates Carbocations (called carbonium ions in the older literature) are electrophiles and carbananions are nucleophiles. Carbenes have only a valence shell sextet of electrons and are therefore electron deficient. In this sense they are elecrophiles, but the non-bonding electron pair also gives carbenes nucleophilic character. As a rule, the electrophilic character dominates carbene reactivity. Carbon radicals have only seven valence electrons, and may be considered electron deficient, however, they do not in general bond to nucleophilic electron pair, so their chemistry exhibits differences from that of conventional electrophiles. Radical intermediates are often called free radicals. Intermediates are in general stabilised with conjugation, electron donating and electron with drawing groups. R-N^(+) equiv N" "Cl^(-) rarr R^(+)+N_(2)+Cl^(-) based on the above, which of the following from R^(+) most readily

The products of bond breaking, shown below, are not stable, and cannot be isolated for prolonged study. Such species are referred to as reactive intermediate, and are belived to be transient intermediates in many reactions. The general structures and names of four such intermediates are, Charged Intermediates Uncharged Intermediates Carbocations (called carbonium ions in the older literature) are electrophiles and carbananions are nucleophiles. Carbenes have only a valence shell sextet of electrons and are therefore electron deficient. In this sense they are elecrophiles, but the non-bonding electron pair also gives carbenes nucleophilic character. As a rule, the electrophilic character dominates carbene reactivity. Carbon radicals have only seven valence electrons, and may be considered electron deficient, however, they do not in general bond to nucleophilic electron pair, so their chemistry exhibits differences from that of conventional electrophiles. Radical intermediates are often called free radicals. Intermediates are in general stabilised with conjugation, electron donating and electron with drawing groups. R-N^(+) equiv N" "Cl^(-) rarr R^(+)+N_(2)+Cl^(-) based on the above, which of the following from R^(+) most readily