Because in nature the elements seek to either give out electrons of take electrons.
So the elements that gives out electrons bonds with the elements that takes electrons so that both of them are "happy"
Metallic bonds are the electrostatic bonds between metal atoms. The positively charged metal ions bond with the valence electrons of the bonding metal.
Type of bonding between elements in a compound chemical-chemically is chemical bonding.
metals
The outermost energy level of an atom that can participate in bonding is called the valence shell. This shell contains the valence electrons, which are the electrons involved in forming chemical bonds with other atoms.
Bonding between elements in the middle of the periodic table tend to be metallic bonding. In metallic bonding, outer electrons are delocalized and free to move, creating a "sea of electrons" that holds the metal ions together. This leads to properties such as high electrical and thermal conductivity in metals.
Carbon can share up to four electrons with other elements in covalent bonding. This allows carbon to form strong covalent bonds and participate in various organic compounds.
Metallic bonds are the electrostatic bonds between metal atoms. The positively charged metal ions bond with the valence electrons of the bonding metal.
Nonpolar compounds, such as hydrocarbons like methane or nonpolar solvents like hexane, do not participate in hydrogen bonding.
No, double bonded oxygen cannot participate in hydrogen bonding because it does not have a hydrogen atom directly bonded to it.
Type of bonding between elements in a compound chemical-chemically is chemical bonding.
Yes it does react strongly when bonding with other elements
Xenon and krypton are noble gases that were previously thought to be inert. However, under specific conditions such as high pressure and temperature, or in the presence of electronegative elements, they can form compounds. This is due to the availability of empty d-orbitals in these elements that can participate in bonding with other elements.
YES
Ionic bonding occurs between a metal and a nonmetal. Metals tend to lose electrons to achieve a stable electron configuration, while nonmetals tend to gain electrons. This transfer of electrons between the two types of elements leads to the formation of ionic bonds.
Elements combine together by chemical bonding to form compounds.
metals
d-block elements show variable oxidation states because their outermost d orbitals are able to participate in bonding and can accommodate a variable number of electrons. This flexibility allows these elements to exhibit different oxidation states depending on the chemical environment and bonding partners.