N
boron
It's carbon. The trend for 1st ionization energy is that it increases as you move left-to-right across a period. As you move in that direction across period 2, ionization energy increases, and since carbon is the most to the right, it has the highest 1st I.E.
No, UV-B is not considered ionizing radiation. Ionizing radiation has enough energy to remove tightly bound electrons from atoms, creating charged particles (ions), while UV-B radiation has lower energy levels that are unable to cause ionization in atoms. UV-B radiation can still have harmful effects on living organisms, such as skin damage and increased risk of skin cancer, but it does not have the same ionization capabilities as ionizing radiation.
Rochow electronegativity is based on the effective nuclear charge of an atom and by extension the attraction a valence electron feels to the nucleus. Pauling electronegativity is based on bonding energies and states that the heteroatomic bond A-B's dissociation energy should be an average of the homoatomic bond A-A and B-B's dissociation energies. Any additional energy differences will be a result of electronegativity. Aside** Muliken electronegativity is an average of the ionization energy and electron affinity of a gas phase atom. All 3 electronegativities increase going up and to the right on the periodic table.
The process you are referring to is nuclear fission. In nuclear fission, the nucleus of an atom is split into smaller parts by bombarding it with neutrons. This process releases a large amount of energy and more neutrons, which can go on to split other nuclei in a chain reaction.
what element C or N has the highest ionization energy
The lower ionization energy of B compared to Be is due to the presence of an extra electron in B. In Be, the outermost electron is tightly held in the 2s orbital, making it harder to remove. In B, the extra electron experiences increased shielding from the inner electrons, making it easier to remove, resulting in a lower ionization energy.
The element with the highest first ionization energy in group 14 is carbon.
The element with the largest first ionization energy is (a) Sb (antimony). It has the highest first ionization energy among the elements listed.
Ionization energy is the energy required to remove an electron from an atom or ion in the gaseous state. This process involves overcoming the attractive force between the electron and the nucleus of the atom. Once the electron is removed, the atom becomes positively charged.
boron
It's carbon. The trend for 1st ionization energy is that it increases as you move left-to-right across a period. As you move in that direction across period 2, ionization energy increases, and since carbon is the most to the right, it has the highest 1st I.E.
Sr Mg B N Ne Apex, Draikman
A. Atomic Mass B. Atomic Number C. Atomic Radius D. Ionization energy
Exceptions in ionization energy within the periodic table occur when there is a significant decrease in ionization energy going from one element to the next. This can happen when there is a half-filled or fully-filled subshell, which results in increased stability and lower ionization energy. Examples include the group 3 elements (B, Al, Ga, In, Tl) and the group 6 elements (Cr, Mo, W).
The electron configurations provided represent the electron arrangement in the outermost energy level of the atoms. Atom A has a 3s1 electron configuration, indicating it is in the third energy level with one electron in the s orbital. Atom B, on the other hand, has a 5s1 electron configuration, indicating it is in the fifth energy level with one electron in the s orbital. Therefore, the main difference between atom A and atom B is the energy level in which their outermost electrons reside.
K (lowest) Na Li B N (highest)