delocalized
of course, ions are formed by loosing (cations) or gaining (anions) electrons. anions have more electrons than the atom from which it is formed.
In a metallic bond, a large number of electrons are free-floating, often referred to as "delocalized electrons," which are not bound to any specific atom. The exact number of these free electrons varies depending on the type and number of metal atoms present in the metallic lattice. Typically, each metal atom contributes one or more of its outer-shell electrons to the "sea of electrons" that facilitates metallic bonding. Therefore, the number of free electrons can be substantial, often equal to the number of metal atoms in the structure.
yes
Yes, most atoms do have more electrons than protons. This is because atoms are electrically neutral, and the number of protons (positive charge) in the nucleus is balanced by the number of electrons (negative charge) surrounding the nucleus.
More the number of shells in an atom, more away will be the electrons from the nucleus. Hence, weaker will be the attraction between nucleus and outermost electrons. So atom with more shells will let go their electrons easier than atoms with fewer shells.
possible
Atoms share one or more electrons in a covalent bond, which is a type of chemical bond where electrons are shared between two atoms. This sharing of electrons allows both atoms to achieve a more stable configuration by filling their outermost electron shells.
Some atoms become more stable by sharing electrons in covalent bonds. This sharing of electrons allows atoms to achieve a full outer energy level, which increases their stability. Covalent bonds commonly form among nonmetals that have a tendency to gain, lose, or share electrons in order to achieve a stable electron configuration.
of course, ions are formed by loosing (cations) or gaining (anions) electrons. anions have more electrons than the atom from which it is formed.
yes
Atoms Answer 2 question is
Yes, most atoms do have more electrons than protons. This is because atoms are electrically neutral, and the number of protons (positive charge) in the nucleus is balanced by the number of electrons (negative charge) surrounding the nucleus.
More the number of shells in an atom, more away will be the electrons from the nucleus. Hence, weaker will be the attraction between nucleus and outermost electrons. So atom with more shells will let go their electrons easier than atoms with fewer shells.
In metallic bonds, electrons are delocalized and free to move throughout the structure of the metal. They are not bound to a specific atom and instead contribute to the overall bonding and properties of the metal.
Atoms that have lost one or more electrons form an ionic bond with an atom that has gained one of more electrons.
In an alloy of silver and gold, the atoms do not typically share electrons like in a covalent bond. Instead, the metals form a solid solution where the atoms of silver and gold are mixed together in the same lattice structure, but the electrons are more free to move around.
Atoms that have lost electrons are positive ions, and are called cations.