Why Does Fluorine Have A Smaller Atomic Radius Than Oxygen

One of the reasons fluorine has a smaller atomic radius than oxygen is because it has a higher electronegativity. This means that it’s able to pull the electrons closer to the nucleus, making the atom smaller. Fluorine also has a smaller atomic radius because it has more protons in its nucleus than oxygen.

This makes the atom more dense and compact.

Fluorine has a smaller atomic radius than oxygen because it has more protons in its nucleus. This causes the electrons in the outermost orbital to be pulled closer to the nucleus, making the atom smaller. Fluorine also has a higher electronegativity than oxygen, which causes the electrons to be more tightly held by the nucleus.

Why is atomic radius of fluorine larger than oxygen

The atomic radius of an element is a measure of the size of its atom. The atomic radius of fluorine is larger than the atomic radius of oxygen because the fluorine atom has more electrons in its outermost energy level than the oxygen atom. The extra electrons in the fluorine atom make it larger than the oxygen atom.

Why atomic radius of oxygen is greater than fluorine?

One of the main reasons why the atomic radius of oxygen is greater than fluorine is because oxygen has a larger number of electrons in its outermost orbital. This is due to the fact that oxygen has a higher atomic number than fluorine, meaning that it has more protons in its nucleus. This causes oxygen to have a stronger attractive force for electrons, which results in a larger atomic radius.

Another reason why the atomic radius of oxygen is greater than fluorine is because oxygen is a less electronegative element than fluorine. This means that oxygen atoms are less likely to pull electrons towards them, resulting in a larger atomic radius. The final reason why the atomic radius of oxygen is greater than fluorine is because oxygen atoms have a larger number of neutron than fluorine atoms.

This causes oxygen atoms to have a larger mass, which results in a larger atomic radius.

Why fluorine has a smaller atomic radius?

Fluorine is the smallest of all the halogens, and has the smallest atomic radius of any element. Fluorine’s small size is due to the fact that it has the highest electronegativity of all the elements. This means that fluorine’s nucleus is very strongly attracted to the electrons in the outermost shell, which makes the atom smaller overall.

Why the atomic radius of oxygen is less than fluorine?

The atomic radius of an element is a measure of the size of its atoms. The radius of oxygen is less than fluorine because the oxygen atom is smaller. The oxygen atom has eight electrons in its outermost shell, while the fluorine atom has nine.

The extra electron in the fluorine atom makes it larger than the oxygen atom. The atomic radius of an element is determined by the size of its nucleus. The nucleus is composed of protons and neutrons, which are held together by the strong nuclear force.

The size of the nucleus determines the size of the atom. The oxygen atom has a smaller nucleus than the fluorine atom, and this makes the oxygen atom smaller overall.

Is fluorine bigger than oxygen?

Fluorine is the smallest of all the Halogens, and is the only element that is smaller than Oxygen. It has a diameter of 71 picometers, compared to Oxygen’s diameter of 73 picometers.

The correct increasing order of the atomic radii of the elements oxygen, fluorine and nitrogen:

Conclusion

Fluorine has a smaller atomic radius than oxygen for a few reasons. First, fluorine’s electron configuration is 2s22p5, while oxygen’s is 2s22p4. This means that fluorine has one more electron in its outermost orbital than oxygen.

Additionally, fluorine is the smallest halogen, and its small size contributes to its small atomic radius. Finally, the fluorine atom is more electronegative than the oxygen atom, meaning that it’s more likely to attract electrons. All of these factors contribute to fluorine’s smaller atomic radius.

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