They OVERLAP
a noble gas.
In a metallic bond, mobile valence electrons, often referred to as "sea of electrons," are the electrons in the outermost energy levels of metal atoms that are not tightly bound to any specific atom. These delocalized electrons can move freely throughout the metallic structure, allowing metals to conduct electricity and heat efficiently. This mobility also contributes to the malleability and ductility of metals, as the atomic cores can shift without breaking the metallic bond.
When atoms form bonds and fill their outermost energy levels, they have an electronic arrangement similar to the nearest noble gas in the periodic table. This is known as the octet rule, where atoms strive to have a full valence shell like the noble gases for stability.
Atoms of metallic elements generally form positive ions by losing electrons. This occurs because metals typically have few electrons in their outermost energy levels, making it energetically favorable for them to lose electrons and attain a stable electron configuration like that of a noble gas.
A metallic bond is characterized by overlapping atoms.
When atoms share electrons to fill their outermost energy levels, they form covalent bonds. In a covalent bond, electrons are shared between atoms to achieve stable electron configurations.
it converts into a bigger energy level
a noble gas.
Atoms filled with outermost energy levels tend to be stable and are less likely to participate in chemical reactions. These atoms have a full valence shell, so they are less reactive and more likely to form stable compounds.
The bonding electrons are located in the outermost energy levels of the atoms, shared between the two atoms to form a chemical bond.
Transition metals are the ones that can form ionic bonds by losing electrons from both the outermost and next to outermost principal energy levels. This is because transition metals have multiple oxidation states due to the presence of partially filled d-orbitals. By losing electrons from different energy levels, these metals can achieve a stable configuration.
both atoms gain electrons
When atoms form bonds and fill their outermost energy levels, they have an electronic arrangement similar to the nearest noble gas in the periodic table. This is known as the octet rule, where atoms strive to have a full valence shell like the noble gases for stability.
electrons in their outermost energy levels. The number of electrons in the outermost shell affects how atoms form bonds with other atoms. This arrangement determines the chemical reactivity and stability of the species.
Similar to a fat woman trying to do a handstand
Atoms of metallic elements generally form positive ions by losing electrons. This occurs because metals typically have few electrons in their outermost energy levels, making it energetically favorable for them to lose electrons and attain a stable electron configuration like that of a noble gas.
Atoms can fill their outermost energy level by either gaining electrons from other atoms or by sharing the outermost electrons with another atom.