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.
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.
B stands for Boron. Boron ion (B³±) is cation but it is well known as non - metal. But if Only B is asked then as B is atom and atom is neutral in charge.
the basic structure of an atom without getting into really advanced and/or theoretical physics is this:at the center of an atom is a nucleus. because of the size of the nucleus, it exerts an attractive force. in orbitals, or 3-d "rings" around the nucleus, there are electrons. there can be several orbitals in one atom. sometimes, these orbitals are referred to as "energy levels." each energy level is sort of like the sections of a stadium: there are a certain number of "seats" in each section, and once tickets for all of those seats have been sold, you have to move to another section. similarly, each energy level can accommodate a certain number of electrons and once it has accepted it's maximum number of electrons, extra electrons have to move to another section or orbital.the energy level closest to the nucleus is called the ground level and it is always filled first. energy levels are filled by placing electrons in the levels closest to the nucleus first and gradually working your way out. if an outer energy level has more seats than it does electrons, it will try to find other electrons to fill the seats. depending on the atom, it will either kick an electron out of the orbital or attract an electron to it. let's go with an example:let's say atom A has all of its energy levels filled except for it's fourth. in the fourth level, it can hold five electrons, but it only has one electron living there. atom B has all of it's energy levels filled except for it's sixth, which can hold three electrons but only has two. if these atoms are brought close to each other, atom B will notice that atom A has an extra electron. since it is easier for atom A to give up one electron than it is for atom B to give two to atom A, atom A will share its one electron with atom B, filling atom B's outermost energy level
what element C or N has the highest ionization energy
The element with the highest first ionization energy in group 14 is carbon.
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.
A. Atomic Mass B. Atomic Number C. Atomic Radius D. Ionization energy
Sr Mg B N Ne Apex, Draikman
Chlorine (Cl)
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.
A. B. F. Duncan has written: 'Rydberg series in atoms and molecules' -- subject(s): Energy levels (Quantum mechanics), Ionization, Rydberg states
b
Francium has the lowest 1st ionization energy. It badly wants to lose that electron. It is extremely energetically favorable. Basically the elements that are in group 1 and are in the lowest periods.
a=b=c