All boble gases will have completely filled valence orbits
This is What a Neon bohr diagram looks like. This is What a Neon bohr diagram looks like. hahahahahahahahahahahahahahahahahaha -------- -----
Noble Gases have a complete set of electrons in their orbits. As seen in a Bohr Diagram, there can by two electrons in the first orbit, eight in the next two, and eighteen in the next two. When an entire orbit is filled perfectly (2 in Helium, 10 in Neon, 18 in Argon, etc.), the element is very stable and, thus, a "Noble Gas."
Bohr's Diagrams
-Electron configuration diagrams -Scientic notation -equations -vocab;(mole, volume, density...etc) -Bohr Diagrams -numbers and prefixes .......
You mean valence electron? 2 If your talking about Bohr Diagrams then it depends on the metal
This is What a Neon bohr diagram looks like. This is What a Neon bohr diagram looks like. hahahahahahahahahahahahahahahahahaha -------- -----
It can't be done.
Noble Gases have a complete set of electrons in their orbits. As seen in a Bohr Diagram, there can by two electrons in the first orbit, eight in the next two, and eighteen in the next two. When an entire orbit is filled perfectly (2 in Helium, 10 in Neon, 18 in Argon, etc.), the element is very stable and, thus, a "Noble Gas."
Valence electrons are the electrons on the outer circle of the Bohr Diagram of the element.Dot diagrams are the same as Bohr Diagrams.BOHR/DOT DIAGRAM:VALENCE ELECTRONS:
Bohr's Diagrams
Bohr's Diagrams
Bohr's Diagrams
the bohr diagram is a series of circles with the element in the middle
Bohr diagrams are useful models to show the count - and loosely, the arrangement - of electrons by shell.
-Electron configuration diagrams -Scientic notation -equations -vocab;(mole, volume, density...etc) -Bohr Diagrams -numbers and prefixes .......
The Bohr Model is the modern name used by scientist for a model of an atom, which is often referred to as the Rutherford-Bohr model due to the fact that Neils Bohr just improved Ernest Rutherfords model.
Bohr diagrams are useful models to show the count - and loosely, the arrangement - of electrons by shell.