The electronic configuration of Be: [He]2s 2 The electronic configuration of Be

Question

The electronic configuration of Be: [He]2s2

The electronic configuration of Be2+: 1s2

The electronic configuration of F: [He]2s22p5

The electronic configuration of F-: [He]2s22p6

The electronic configuration of Ti: [Ar]4s23d2

The electronic configuration of Ti2+: [Ar]4s23d0

The electronic configuration of Ti4+: [Ar]4s0

The electronic configuration of K: [Ar]4s1

The electronic configuration of K+: [Ar]4s0

The electronic configuration of O2: [He]2s22p6

The electronic configuration of Mg2+: [Ne]3s0 or 1s22s22p6

The electronic configuration of Sn: [Kr]5s25p2

The electronic configuration of Sn2+: [Kr]5s25p0

The electronic configuration of Sn4+: [Kr]5s0

The electronic configuration of As: [Ar]4s24p3

The electronic configuration of As3-: [Ar]4s24p6

The electronic configuration of As3+: [Ar]4s24p0

The electronic configuration of As5+: [Ar]4s0

The electronic configuration of Zn: [Ar]4s23d10

The electronic configuration of Zn2+: [Ar]4s23d8

The electronic configuration of Ca2+: [Ar]4s2

The electronic configuration of Cl-: [Ne]3s23p6

Explanation / Answer

Now we look at the electron configuration of ions. Give the abbreviated electron configuration for each Be: Sn Be Sn2 Sn' As: Ti: As: Ass K: Zn: Zn Ca Mg' Cl:: Now go back and consider the atoms and ions that are in the same box (this is for the last set only). Place a star by the atom or ion that you think has the largest radius of those options. On a separate sheet of paper do the following First write the complete electron configuration for an atom of Nickel. Then draw the orbital diagram that matches this electron configuration. Then circle 8 electrons of your choice and give the 4 quantum number for each. 72 Electron Configuration

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