Periodic Properties of the Elements Chemistry 1Honors Jeff Venables Northwestern High School

Write electron configurations for each of the following: Cl Br I At What do you notice?

Development of the Periodic Table As of 2008, there were 117 elements known. How do we organize 117 different elements in a meaningful way that will allow us to make predictions about undiscovered elements?

Certain elements were missing from this scheme. Arrange elements to reflect the trends in chemical and physical properties. First attempt (Mendeleev and Meyer) arranged the elements in order of increasing atomic mass. Certain elements were missing from this scheme. Example: Mendeleev and Germanium. Modern periodic table: arrange elements in order of increasing atomic number. Groups – what do elements have in common?

Group – a column (vertical) on the periodic table. Period - a row (horizontal) on the periodic table. There are 7 periods. Group – a column (vertical) on the periodic table. Group1 = alkali metals Group 2 = alkaline earth metals Groups 3-12 = transition metals Group 13 = Boron group Group 14 = Carbon group Group 15 = Nitrogen group Group 16 = Chalcogens Group 17 = Halogens Group 18 = Noble gases

Periodic Trends in Atomic Radii As a consequence of the ordering in the periodic table, many properties of elements vary periodically. As we move down a group, the atoms become larger. As we move across a period, atoms become smaller. There are two factors at work: Energy level - shielding, n, and the increasing numbers of protons.

Examples – Place each group of elements in order of increasing atomic radius: S, Al, Cl, Mg, Ar, Na K, Li, Cs, Na, H Ca, As, F, Rb, O, K, S, Ga

Examples – Place each group of elements in order of increasing atomic radius: S, Al, Cl, Mg, Ar, Na Ar < Cl < S < Al < Mg < Na K, Li, Cs, Na, H H < Li < Na < K < Cs Ca, F, As, Rb, O, K, S, Ga F < O < S < As < Ga < Ca < K < Rb

Electron Configurations of Ions Cations: electrons removed from orbital with highest energy level, n, first: Li (1s2 2s1)  Li+ (1s2) Fe ([Ar]3d6 4s2)  Fe3+ ([Ar]3d5) Anions: electrons added to the orbital with highest n: F (1s2 2s2 2p5)  F- (1s2 2s2 2p6)

Write electron configurations for the following ions: Al3+ S2- Li+ Br- Fe2+ Fe3+

Write electron configurations for the following ions: Al3+ 1s22s22p6 S2- [Ne]3s23p6 Li+ 1s2 Br- [Ar]4s23d104p6 Fe2+ [Ar]3d6 Fe3+ [Ar]3d5

Trends in the Sizes of Ions Ion size is the distance between ions in an ionic compound. Ion size also depends on nuclear charge, number of electrons, and orbitals that contain the valence electrons. Cations vacate the largest orbital and are smaller than the atoms from which they are formed. Anions add electrons to the largest orbital and are larger than the parent atom.

O2- > F- > Na+ > Mg2+ > Al3+ For ions of the same charge, ion size increases down a group. All the members of an isoelectronic series have the same number of electrons. As nuclear charge increases in an isoelectronic series the ions become smaller: O2- > F- > Na+ > Mg2+ > Al3+

Examples – Choose the larger species in each case: Na or Na+ Br or Br- N or N3- O- or O2- Mg2+ or Sr2+ Mg2+ or O2- Fe2+ or Fe3+

Examples – Choose the larger species in each case: Na or Na+ Br or Br- N or N3- O- or O2- Mg2+ or Sr2+ Mg2+ or O2- Fe2+ or Fe3+