No, Transition metals do not obey the octet rule in simple compounds , Am is an 'f' block transition metal.
The "octect" rule is mainly about the amount of levels within each electron shell in an atom. For example, the first can contain up to 2, and the second up to 8.
It what happens when elements don't obey the octect rule, i.e. elements that have more than eight electrons in their outermost shell. It what happens when elements don't obey the octect rule, i.e. elements that have more than eight electrons in their outermost shell.
the electron configuration of a noble gas
This is an assymetric alkene.
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.
Of course it does obey.There are 8 electrons around Nitrogen.
In England you just be over twelve, but nobody obeys that rule
a stable element is an element which have been able to complet its octect rule, i.e the electron of its outermost shell is complet, this is what is called a stable element
Xenon obeys octet rule and has a stable electronic configuration. So, xenon does not form any anion.
It what happens when elements don't obey the octect rule, i.e. elements that have more than eight electrons in their outermost shell. It what happens when elements don't obey the octect rule, i.e. elements that have more than eight electrons in their outermost shell.
No, carbon disulfide (CS2) does not obey the octet rule. In CS2, the central carbon atom has only six electrons in its valence shell, forming double bonds with the sulfur atoms, resulting in a total of 16 valence electrons around the carbon atom.