Fluorine has a larger ionic radius than oxygen because fluorine is higher up in the Periodic Table with fewer protons in its nucleus, resulting in a larger atomic radius compared to oxygen.
The radius of a fluoride ion (F-) is larger than that of an oxygen ion (O2-). This is because fluorine has an additional shell of electrons compared to oxygen, leading to increased atomic size and hence larger ionic radius. Additionally, the increase in electron repulsion within the fluoride ion contributes to its larger size compared to the oxide ion.
Bromine has the larger ionic radius than fluorine. This is because when moving down a group on the periodic table, atomic size increases due to the addition of more electron shells. Bromine, being below fluorine on the periodic table, has more electron shells and thus a larger ionic radius.
The element with the smallest negative ionic radius is fluorine (F). It has a small ionic radius due to the high effective nuclear charge, which attracts the electrons closer to the nucleus in the ionic form.
Potassium has a larger ionic radius than sulfur.
Phosphorus has larger ionic radius than sulfur. There is more nuclear attraction in sulfur.
Bromine has a larger value in ionic radius compared to fluorine. Fluorine is a smaller atom due to more effective nuclear charge and stronger attraction to its electrons. Bromine, on the other hand, is a larger atom with more electron shells, resulting in a larger ionic radius.
The radius of a fluoride ion (F-) is larger than that of an oxygen ion (O2-). This is because fluorine has an additional shell of electrons compared to oxygen, leading to increased atomic size and hence larger ionic radius. Additionally, the increase in electron repulsion within the fluoride ion contributes to its larger size compared to the oxide ion.
Bromine has the larger ionic radius than fluorine. This is because when moving down a group on the periodic table, atomic size increases due to the addition of more electron shells. Bromine, being below fluorine on the periodic table, has more electron shells and thus a larger ionic radius.
No, fluorine has a larger ionic radius than bromine. This is because fluorine, being in the second row of the periodic table, has fewer electron shells than bromine, which is in the fourth row. As you move down a group in the periodic table, the atomic size tends to increase.
The element with the smallest negative ionic radius is fluorine (F). It has a small ionic radius due to the high effective nuclear charge, which attracts the electrons closer to the nucleus in the ionic form.
Potassium has a larger ionic radius than sulfur.
Phosphorus has larger ionic radius than sulfur. There is more nuclear attraction in sulfur.
The chloride ion (Cl-) is larger than the oxygen ion (O2-). This is because the chloride ion has more electrons than the oxygen ion, resulting in a larger atomic radius and hence a larger ionic radius.
in the case of non-metals, the anions are formed by the addition of electrons. So the ionic radius is larger than that of the atomic radius
As fluorine is more electronegative than oxygen, fluorine acts as the electron acceptor in the compounds with oxygen. As fluorine becomes partially negative charged and positive for oxygen, they are called fluorides.
The ionic radius of N3- is larger than that of O2- because the extra electron in the N3- ion is located in a higher energy level, leading to larger electron-electron repulsions and an increase in the ionic radius. Additionally, the effective nuclear charge experienced by the electrons in the N3- ion is lower than that in the O2- ion, further contributing to the larger ionic radius of N3-.
The trend for ionic radius across the metals is that as you move down a group on the periodic table, the ionic radius increases. This is because as you go down a group, the number of electron shells increases, leading to larger atomic size and hence larger ionic radius.