a molecule
When oxygen is bonded to a metal, it forms an oxide compound. When oxygen is bonded to a nonmetal, it forms an oxide compound as well. Oxygen can form both ionic and covalent bonds with different elements depending on their electronegativity.
that's metals
Beryllium is a metal, not a nonmetal. It will generally form ionic compounds with nonmetals.
Carbon is considered a nonmetal. It has an atomic symbol of C and atomic number of 6. It is a solid in its standard state.
Nonmetal is a classification of elements on the periodic table based on their properties, while an atom is the basic unit of an element. Each nonmetal element consists of atoms, just like metals do. So, to clarify, a nonmetal is not an atom, but is composed of atoms.
binary ionic compound
It forms acidic solutions
binary ionic compound
When a nonmetal bonds with another nonmetal, it forms a covalent bond. In this type of bond, atoms share electrons in order to achieve a stable electron configuration. This results in the formation of molecules or compounds, such as water (H2O) or carbon dioxide (CO2).
When a nonmetal bonds with another nonmetal, they typically form a covalent bond. In a covalent bond, the nonmetals share electrons to achieve a stable electron configuration. This sharing of electrons allows both atoms to attain a full outer electron shell and form a molecule.
B. binary ionic compound
A metal and a nonmetal; but exceptions exist.
Aluminum combines chemically into binary compounds mostly with nonmetal elements, but aluminates, which contain oxygen, aluminum, and another metal element are also important minerals practically.
A metal oxide reacting with a nonmetal oxide typically results in the formation of a salt. This reaction can be classified as a synthesis or combination reaction, where the metal cation from the metal oxide combines with the nonmetal anion from the nonmetal oxide to form a salt.
Yes, oxygen is an active nonmetal. It is highly reactive and forms compounds with many elements.
When two nonmetals combine, they typically form covalent bonds where they share electrons. This results in the formation of molecules rather than ionic compounds. The properties of the resulting compound are determined by the number and types of atoms involved in the covalent bonding.
Sharing electrons