The ranking of radicals in order of decreasing stability is as follows: benzyl allyl tertiary secondary primary methyl.
The rank of the following radicals in order of decreasing stability is as follows: benzyl radical allyl radical methyl radical.
The effusion rate is inversely proportional to the square root of the molecular weight of the gas. Therefore, the ranking in decreasing effusion rate would be: He > H2 > C3H8 > H2S.
Radicals are highly reactive because they contain unpaired electrons in their outer shell, making them seek out another atom to share electrons with in order to form a stable covalent bond. This reactivity is driven by a desire to achieve a full outer electron shell and increase stability through electron pairing.
No, radicals are not electrically neutral because they have an unpaired electron, which gives them a charge. This unpaired electron makes radicals highly reactive and prone to forming new chemical bonds in order to become more stable.
The rank of indicated protons in decreasing order of acidity is determined by their ability to donate a proton. The higher the acidity, the more easily the proton can be donated.
The rank of the following radicals in order of decreasing stability is as follows: benzyl radical allyl radical methyl radical.
The effusion rate is inversely proportional to the square root of the molecular weight of the gas. Therefore, the ranking in decreasing effusion rate would be: He > H2 > C3H8 > H2S.
rank or ranking
Palmer
Radicals are highly reactive because they contain unpaired electrons in their outer shell, making them seek out another atom to share electrons with in order to form a stable covalent bond. This reactivity is driven by a desire to achieve a full outer electron shell and increase stability through electron pairing.
Ranking is listing in order of importance or size.
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Mitchell Palmer
No, radicals are not electrically neutral because they have an unpaired electron, which gives them a charge. This unpaired electron makes radicals highly reactive and prone to forming new chemical bonds in order to become more stable.
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ranking
the rule defines whether we have to arrange in ascending order or the decreasing order as per demand