Yes, the nitrate ion (NO3-) is considered an odd-electron species because it has an unpaired electron. In its Lewis structure, the molecule has a total of 24 valence electrons (5 from nitrogen and 18 from three oxygen atoms, plus one extra electron for the negative charge), leading to an unpaired electron configuration. This characteristic can influence its reactivity and bonding behavior in chemical reactions.
NO molecule has 15 (odd) electrons, 8 from oxygen and 7 from nitrogen.
The final reduced species in the electron transport chain is water. Oxygen is the final electron acceptor in the chain, and it is reduced to form water.
Ag+
as there is pi bond in alkene that has to be break for addition reaction and due to bond breaking one carbon acquire more electron density and gets negative charge and other 1 get positive charged due to electron deficiency so here nucleophilic and electrophiic both reactions are possible
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Yes, NO2 is a radical species with an odd number of electrons. This is due to the unpaired electron present in the nitrogen atom, making it paramagnetic and reactive.
NO molecule has 15 (odd) electrons, 8 from oxygen and 7 from nitrogen.
electrophilic addition reaction
Aerobic respiration - final electron acceptor is oxygen (O) Anaerobic respiration - final electron acceptor can besulfate (SO42-), nitrate (NO3-), sulfur (S), or fumarate....
The final reduced species in the electron transport chain is water. Oxygen is the final electron acceptor in the chain, and it is reduced to form water.
In ionic bonding the electron rich species donates electron to the electron lacking species.in this process the electron donating species converts into cation by loosing electron and electron accepting species converts into anion by accepting electron.the ions now combine to from a ionic compound by releasing lattice energy
No, aerobic bacterial species do not have identical electron acceptors in their electron transport systems. Different species may use different electron acceptors such as oxygen, nitrate, or sulfate depending on their metabolic capabilities and environmental conditions.
electrophiles are the electron deficient species whereas nucleophiles are the electron rich specie .the other difference is that electrophiles are the electron loving species and nucleophile are electron hating.
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Electrons or electron rich species.
The bond present in NaNO3 is an ionic bond. Sodium (Na) donates an electron to the nitrate (NO3) group, forming a positive sodium ion (Na+) and a negative nitrate ion (NO3-), which are held together by electrostatic attraction.
The charges of NaNO3 break down as follows: Na has a charge of +1 because it loses one electron to become stable, and NO3 has a charge of -1 because it gains one electron to achieve stability. This results in NaNO3 having an overall neutral charge.