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What particle of an Atom determines how the Atom will bond with another Atom?
The particle of an atom that determines how it will bond with another atom is the electron, specifically the valence electrons. These are the electrons in the outermost shell of an atom and are responsible for chemical bonding. Atoms can share, gain, or lose valence electrons to achieve a stable electron configuration, leading to the formation of covalent, ionic, or metallic bonds.
Why Mg is harder than Na?
Mg. Mg has 2 valence electrons while Na only has 1 valence electron. Mg+2 also has a smaller ionic radius than Na+. Metallic bonds are stronger when metals have more valence electrons and smaller ion size. The metallic bond will be stronger for Mg. Thus, Mg will have the higher melting point.
What is a bond formed by the attraction between positively charged metal ions and the electrons around them?
Metallic Bond .
What happens to the outermost levels of metal atoms in a metallic bond?
They OVERLAP
Explain what does the strength of a metallic bond depends upon?
Number of valence electrons-The greater the number of freely mobile valence electrons, the higher the charge of positive metal ion, the stronger the metallic bond. Size of metal atom or ion-The smaller the size of the metal ion, the closer the nuclei of metal cations are to the delocalized mobile electrons, the stronger the forces of attraction between the electrons and nuclei, the stronger the metallic bonds.
What determins the strength of metallic bond?
The number of valence electrons determines the strength of the metallic bond. The more the stronger the bond will be.
What is responsible for an ionic bond?
An ionic bond is a bond that is resulted between two atoms because of an electron transfer. This happens by thephenomenaatoms have to be attracted to other atoms who will complete their valence electron shell.
What happens to the valence electrons in a covalent bond?
alot of chet
The bond between opositive charge ions is?
the bond is metallic bond where it joins metals in a crystal lattice, the atoms occupy lattice positions as positive ions, and valence electrons are shared between all the ions in an 'electron gas'.
What happens to the valence electrons of atoms in metallic bond?
In metallic bonding, valence electrons are delocalized and free to move among the atoms. This creates a "sea of electrons" that holds the metal atoms together in a lattice structure. The sharing of electrons in this way gives metals their characteristic properties, such as conductivity and malleability.
What type of bond is formed when gold bonds with itself?
When gold bonds with itself, it forms a metallic bond. Metallic bonding is characterized by the sharing of electrons among many atoms in a metal structure, leading to properties like high electrical conductivity, malleability, and ductility.
What is valence orbital?
A valence electron, also known as valence orbital, is basically composed of electron and atoms that can make a chemical bond. Valence electrons identify other elementÕs chemical properties to determine if the element may bond with other elements.
What particle of an Atom determines how the Atom will bond with another Atom?
The particle of an atom that determines how it will bond with another atom is the electron, specifically the valence electrons. These are the electrons in the outermost shell of an atom and are responsible for chemical bonding. Atoms can share, gain, or lose valence electrons to achieve a stable electron configuration, leading to the formation of covalent, ionic, or metallic bonds.
When two atoms share valence electron is it known as what?
A covalent bond.
What bonds are formed by delocalized electrons in an Electron Sea?
metallic bond
Can sodium and oxygen for an ionic bond?
Yes, sodium and oxygen can form an ionic bond. Sodium, with one valence electron, can lose this electron to oxygen, which has six valence electrons. Oxygen then gains this electron to achieve a stable octet, forming sodium oxide.
What type of bond is it when one atom gains or loses a valance electron from a different atom?
metallic bond
