The seven diatomiic elements are hydrogen, nitrogen, oxygen,flurine,chlorine, iodine,bromine is known as diatomic elements .
Nitrogen (N2) is the Group 15 element that exists as diatomic molecules at standard temperature and pressure (STP).
Nitrogen exists as a diatomic molecule (N2) at room temperature and pressure.
Astatine is not a diatomic element because it is in a group of halogens that are typically diatomic in nature, but astatine atoms are too large and unstable to form stable diatomic molecules. Its reactivity and nuclear instability make it difficult to exist as a diatomic molecule.
To identify the valence electrons of an element on the periodic table, look at the group number of the element. The group number indicates the number of valence electrons. For example, elements in Group 1 have 1 valence electron, elements in Group 2 have 2 valence electrons, and so on.
Nitrogen, the first element in Group 15, has the most nonmetallic properties. It is a diatomic gas at room temperature, demonstrating typical nonmetal characteristics such as covalent bonding and low reactivity.
Nitrogen (N2) is the group 15 element that exists as diatomic molecules.
Iodine or Fluorine . . . A+
Iodine or Fluorine . . . A+
Nitrogen (N2) is the Group 15 element that exists as diatomic molecules at standard temperature and pressure (STP).
nitrogen
we can identify the element having diatomic by finding out the valency of that element. i think it helps you.
Nitrogen exists as a diatomic molecule (N2) at room temperature and pressure.
That is called a diatomic element. Hydrogen and Oxygen are two examples of diatomic elements.
That is called a diatomic element. Hydrogen and Oxygen are two examples of diatomic elements.
Mercury or HG is an element that is liquid at room temperature and is not a diatomic element.
Astatine is not a diatomic element because it is in a group of halogens that are typically diatomic in nature, but astatine atoms are too large and unstable to form stable diatomic molecules. Its reactivity and nuclear instability make it difficult to exist as a diatomic molecule.
diatomic