So, Is H2 polar or nonpolar? H2 is a nonpolar molecule because of the linear geometrical structure and the same electronegativity of both hydrogen atoms due to which they share an equal proportion of the charge resulting in the net-zero dipole moment making it a nonpolar molecule. To understand the basic concept let us have a brief study of below terms: Polar molecules are those where an unequal number of electrons are shared between their bonded atoms. This creates a difference in the electronegativity of participating atoms. Whereas, nonpolar molecules are those where an equal number of electrons are shared between the interacting atoms. Here, the electronegativities of participating atoms are the same. The elements exhibit the tendency of polarity because of electronegativity. It is a phenomenon by which an atom attracts a shared pair of electrons towards itself. In a case where electronegativities of two atoms are not the same, an equal number of electrons are not shared and a partial charge is developed. This form partial ionic covalent bond. Oppositely, when an equal number of electrons are shared between the atoms, no partial charge is developed. This form nonpolar covalent bond and nonpolar molecule. like our solar system, electrons move in their respective orbits within an atom. The electrons present in the outermost orbit can participate only, to bond with an electron of another atom. This shared pair of electrons form a covalent bond that stabilizes both the attractive and repulsive forces between the atoms. Let us discuss the abilities of both the molecules separately, in a table
Why is hydrogen gas (H2) molecule nonpolar in nature?
Hydrogen gas is one of the simplest nonpolar covalent molecules. Single hydrogen (H) atom has only one valence electron in its outermost shell. Also, it needs only one electron to stabilize itself. When it comes in contact with another hydrogen (H) atom, both the valence electrons pair up to stabilize each other’s structure. You can also say, both the atoms are strongly going to attract the shared pair of electrons in the covalent bond. For H2 atom, electronegativity will be the same for both the atoms. It means both the atoms will pull equally on the shared pair of electrons. This means there will be no difference in charge distribution on the surface of this molecule. Such a condition leads to the formation of no poles and ultimately becoming a nonpolar molecule.
Major differences between Polar and Nonpolar Molecules?
Points to determine if the molecule is polar or nonpolar?
For nonpolar molecules, check if:
The Molecules that are made of the same element are generally seen nonpolar. Some examples can be N2, F2, H2, He, Ne, Ar, Xe. Molecules containing only carbon and hydrogen atoms ie; hydrocarbons. Some examples can be CH4, C2H6 Molecules that have symmetry in its structure. This means that electrons are similarly arranged throughout the structure. Some examples can be CF4, BH3, CO2. You can check out the reason for the non-polarity of CS2.
Here, a question arises: Not necessarily! In such cases, the electronegativity difference needs to be checked once. One example of this condition can be BrCl. It is a non-symmetric molecule where electronegativity of Br is 2.8 and that of Cl is 3.0. The difference is less than 0.5 so this molecule is nonpolar or can be classified as a very slightly polar. Chemistry is full of exceptions! For polar molecules, check if
The Molecule has a hydrogen bond, not a covalent bond, then it is a polar molecule. Some of the examples can be HN, HF, H2O, NH3, CH3COOH Molecules lack symmetry and have a polar bond (also called a covalent bond), then it is a polar molecule. Some examples of this situation can be SCO and CH3F. Both these molecules lack symmetry and have covalent bonds still both are polar in nature. You can check out the reason for the polarity of BrF3.
Below is the geometrical structure of hydrogen gas molecule
Some related questions
A molecule can be made up of atoms having different electronegativities. This means, one atom will attract electrons with greater influence as compared to another atom, which makes it more negative than the other atom. Such a phenomenon creates two separate poles in a molecule (positive and negative) making it dipolar. The bond formed by the outermost electrons of two atoms to reach a stable condition is called a covalent bond.
Within groups, electronegativity increases from left to right and bottom to top. Such interaction occurs when negatively charges portion of one molecule bonds with a positively charged portion of another molecule and vice versa. This interaction is responsible for many physical and biological phenomena occurring on the earth. One example of this can be the boiling of water. Lewis diagram and shape diagrams with solid and dashed lines along with wedges are the more preferred way to draw the structure of a molecule. For the shape diagram:
The solid line shows that bonds are in the same plane The dashed line shows that bonds are directed into the plane Wedge shows bonds are directed out of the plan
Conclusion
In a nutshell, all monoatomic molecules will be nonpolar because they will share an equal number of valence electrons to form a covalent bond and linear geometrical shape. Also, their electronegativity difference will always be 0 because they are monoatomic and will always by symmetrical in structure. Always try to check the value of electronegativity difference and how valence electrons are shared between the atoms through Lewis Diagram. This will give you a foundational idea of whether a molecule is polar or nonpolar. Now you should have a clear idea of all monoatomic molecules to be nonpolar. I hope you guys are aware of the basic fundamentals to check if a molecule is polar or not. If you guys have any doubts, you can freely ask them in the comment section. We will reach out to you as soon as possible.
