III only. Nonmetals.
Hydrogen gas at standard temperature and pressure exists as diatomic molecules, and much of the chemical potential energy of atomic hydrogen has been evolved as heat along with forming the diatomic molecules.
No, iron (Fe) is not diatomic; it exists as a monatomic element in its solid state, typically forming a metallic lattice. However, in certain gaseous forms, such as during high-temperature reactions, iron can exist in diatomic molecules (Fe₂), but this is not its common state. In general, diatomic molecules refer to elements like oxygen (O₂) or nitrogen (N₂), which naturally exist as two atoms bonded together.
Yes, Cl2 represents a molecule of chlorine gas. Each chlorine atom shares a single covalent bond with the other, forming a diatomic molecule.
A molecule is defined as a group of two or more atoms that are chemically bonded together, representing the smallest fundamental unit of a chemical compound. These atoms can be of the same element, forming diatomic molecules like O₂, or of different elements, forming compounds like H₂O. Molecules can vary in size and complexity, from simple diatomic molecules to large macromolecules such as proteins and DNA. The specific arrangement and types of atoms within a molecule determine its chemical properties and behavior.
chlorine, the other three are examples of noble gases
Hydrogen gas at standard temperature and pressure exists as diatomic molecules, and much of the chemical potential energy of atomic hydrogen has been evolved as heat along with forming the diatomic molecules.
Yes, Cl2 represents a molecule of chlorine gas. Each chlorine atom shares a single covalent bond with the other, forming a diatomic molecule.
On the periodic table, oxygen is simply O. However, oxygen is diatomic and will naturally pair up forming molecular oxygen, O2.
chlorine, the other three are examples of noble gases
Elements like chlorine form diatomic molecules because they are more stable in their molecular form rather than as individual atoms. By sharing electrons and forming a covalent bond with another atom of the same element, they achieve a more stable electron configuration. This stability helps lower their overall energy, making diatomic molecules the preferred state for certain elements.
Bromine molecules travel as diatomic molecules (Br2) due to the nature of their chemical bonding. Each bromine atom shares one electron with another bromine atom, forming a stable covalent bond that makes the diatomic molecule more stable than individual bromine atoms. This diatomic form is prevalent in its gaseous and liquid states, allowing bromine to exist in nature primarily as Br2. Additionally, this molecular form helps bromine efficiently participate in chemical reactions.
The correct answer is: Bent.
They do not. Diatomic molecules containing two atoms of the same elemnt are non-polar, for example Cl2 . When the atoms are of different elents then the bond may be polar depending on the difference in electronegativity, example HCl.
diatomic molecules are made up of two atoms. These two atoms can either be the same of different chemical elements. Depending on what elements are in place well that depends on what kind of bonding. For example in class i learned that a homo-nuclear diatomic molecule is non-polar and covalent.
Oxygen molecules tend to prefer covalent bonding when forming compounds. This means that they will share electrons more readily. However, when forming an ionic compound, they will usually gain electrons rather than losing them.
No, H2 does not have a bond angle. H2 is a diatomic molecule composed of two hydrogen atoms bonded together, forming a linear molecule with no bond angle. Bond angles are typically associated with molecules that have three or more atoms.
Atoms in chlorine gas are typically found bonded to each other in pairs, forming diatomic molecules (Cl2). Each molecule consists of two chlorine atoms held together by a covalent bond.