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How could iodine atoms react to achieve a noble gas configuration?
Iodine accepts one electron to achieve noble gas configuration. Strontium loses two electrons to achieve noble gas configuration. Nitrogen accepts three electrons to achieve noble gas configuration. Krypton already has a noble gas configuration.
How could Krypton react to achieve a noble-gas configuration?
Krypton could gain a noble gas configuration by either losing 4 electrons to reach the stable configuration of argon or gaining 3 electrons to reach the stable configuration of xenon. This would involve either forming a 4+ cation or gaining a 3- anion.
How could you distinguish a sugar from an enzyme?
look for nitrogen, if it has nitrogen it's likely a enzyme
Electronic configuration for cobalt?
It could be any cooper or material that is squishier.
How could each what atoms react to achieve a noble gas configuration?
if the atom is an element from groups 1, 2, or 13, the atom has to give up electrons to make it have 8. For example, if you have Boron in group 13, it has 3 valence electrons, making it more likely to give up electrons than gain them. If you take 3 electrons from Boron, you get Helium. Helium is the noble-gas for Boron. B(+3) has a noble-gas configuration of He. if the atom is an element from groups 15, 16, or 17, the atom has to gain electrons to make it have 8. For example, if you have Oxygen with 6 valence electrons, it is more likely to gain electrons than lose them. If 2 electrons are added to Oxygen the noble-gas configuration becomes Neon. O(-2) has a noble-gas configuration of Ne. if the atom is an element in group 14, it can either gain or lose electrons. so the noble gas configuration could be the 4 electrons less or 4 electrons more than it. For example, if you add 4 electrons to Carbon you get Neon but if you take away 4 electrons you get Helium.
How could iodine atoms react to achieve a noble gas configuration?
Iodine accepts one electron to achieve noble gas configuration. Strontium loses two electrons to achieve noble gas configuration. Nitrogen accepts three electrons to achieve noble gas configuration. Krypton already has a noble gas configuration.
What is the electron configuration of nitrogen in its excited state?
The electron configuration of nitrogen in its ground state is 1s^2 2s^2 2p^3. In an excited state, one of the electrons can be promoted to a higher energy level. For example, in an excited state, the electron configuration of nitrogen could be 1s^2 2s^2 2p^2 3s^1 3p^1.
How many covalent bonds of 1 atom of Nitrogen with positive net charge can form?
An atom of nitrogen typically forms 3 covalent bonds to achieve a stable electron configuration. However, with a positive net charge, it can form fewer bonds. With a net charge of +1, nitrogen could potentially form 2 covalent bonds, as it would have one less electron to share.
What is the electronic configuration of nitrogen in excited state?
1s2 2s1 2p3 3s1
How could Krypton react to achieve a noble-gas configuration?
Krypton could gain a noble gas configuration by either losing 4 electrons to reach the stable configuration of argon or gaining 3 electrons to reach the stable configuration of xenon. This would involve either forming a 4+ cation or gaining a 3- anion.
What is the max number of covalent bonds nitrogen could make with hydrogen?
Four covalent, polar, bonds with H atoms in ammonium ion: NH4+ (the same configuration as CH4).
Where on earth could you find nitrogen?
Our atmosphere is made up of 78 % nitrogen.
How could you distinguish a sugar from an enzyme?
look for nitrogen, if it has nitrogen it's likely a enzyme
What is the formula of nitrogen peroxide?
The formula for nitrogen dioxide is NO2. Nitrogen peroxide is not a specific compound but could refer to different nitrogen oxides with varying compositions.
Should you put nitrogen in your tires?
yes nitrogen would be good or you could use regular old air which is about 70% nitrogen anyway!
Why might the expression 1 mole of nitrogen be confusing?
The confusion might arise because the term "mole" is a unit of measurement for the amount of substance, while "nitrogen" refers to a specific element. So saying "1 mole of nitrogen" could be ambiguous without specifying whether it refers to 1 mole of nitrogen atoms or 1 mole of nitrogen molecules (N2).
Could we prepare nitrogen trichloride by reacting chlorine with nitrogen gas at any conditions?
No. It's tottaly impossible!
