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Section 4.5—Periodicity

Section 4.5—Periodicity. What is periodicity on the periodic table?. The predictable pattern by which properties of elements change across or down the periodic table.

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Section 4.5—Periodicity

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  1. Section 4.5—Periodicity

  2. What is periodicity on the periodic table? The predictable pattern by which properties of elements change across or down the periodic table. There are always exceptions to these periodicity trends…each of the trends is a “general” trend as you move across a period or down a group.

  3. Trend 1: Atomic Radii

  4. H H What is atomic radius? Half of the distance between the nuclei of two bonded atoms. Distance between nuclei Atomic radius of hydrogen atom

  5. Atomic Radii Trends Decreases Increases

  6. Move across the periodic table Radius decreases Atomic Radii Trends Reasoning, Part 1 Why do atomic radii decrease across a period? Moving left to right, the number of protons, neutrons and electrons all increase. e e e e n p n e e p p p n p p n n n p n e Lithium atom Beryllium atom As the # of protons electrons increase, the attraction between the positive nucleus and negative electron cloud increases. This attraction “pulls” in on the electrons.

  7. e e e e e e e e + e + e e e e e Move down the periodic table Radius increases Atomic Radii Trends Reasoning, Part 2 Why do atomic radii increase down a group? Protons, neutrons and electrons are also added as you move down a group. Lithium atom Sodium atom However, the electrons are added in new energy levels. The inner electrons “shield” the new outer electrons from the pull of the nucleus, therefore it doesn’t pull in like the last slide.

  8. Trend 2: Ionization Energy

  9. What is Ionization Energy? The energy needed to remove the outermost electron.

  10. Ionization Energy Trends Increases Decreases

  11. Move across the periodic table Radius decreases IE increases Ionization Energy Trends Reasoning, Part 1 Why does Ionization Energy increase across a period? Moving left to right, the radius of the atom decreases as more protons pull on more electrons. e e e e n p n e e p p p n p p n n n p n e Lithium atom Beryllium atom When an atom is smaller, the electrons are closer to the nucleus, and therefore feel the pull more strongly. It is harder to pull electrons away from these smaller atoms.

  12. e e e e e e e e + e + e e e e e Move down the periodic table IE decreases Radius increases Ionization Energy Trends Reasoning, Part 2 Why does ionization energy decrease down a group? As you move down a group, the radius increases as more electrons shells are added. Lithium atom Sodium atom As the outer electrons (those involved in bonding) are farther from the nucleus, they will feel the “pull” of the nucleus less. It is easier to remove an electron from a larger atom.

  13. Trend #3: Electron Affinity

  14. What is Electron Affinity? energy released when an electron is added to an atom

  15. Electron Affinity Trends Increases Decreases

  16. Move across the periodic table Radius decreases EA increases Electron Affinity Trends Reasoning, Part 1 Why does Electron Affinity increase across a period? Moving left to right, the radius of the atom decreases as more protons pull on more electrons. e e e e n p n e e p p p n p p n n n p n e Lithium atom Beryllium atom When an atom is smaller, the electrons are closer to the nucleus, and therefore feel the pull more strongly. A smaller atom can handle an extra electron more easily as it can be more “controlled” by the closer nucleus

  17. e e e e e e e e + e + e e e e e Move down the periodic table EA decreases Radius increases Electron Affinity Trends Reasoning, Part 2 Why does electron affinity decrease down a group? As you move down a group, the radius increases as more electrons shells are added. Lithium atom Sodium atom As the outer electrons (those involved in bonding) are farther from the nucleus, they will feel the “pull” of the nucleus less. The larger atom is less able to “control” a new electron added.

  18. Ionic Charge & Radii

  19. Review Some Definitions Ion– atom with a charge. Cation– positively charged ion. Results from loss of electrons. Anion– negatively charged ion. Results from gain of electrons.

  20. e e e e e + + Creating a cation, losing electrons Radius decreases Ionic Radii—Cations How does the radius of a cation compare to the parent atom? Atoms lose electrons to create positive ions Lithium atom Li+ ion When electrons are lost, there are now more protons than electrons Therefore, the protons have a greater “pull” on each of the electrons.

  21. e e e e e + e e e Creating an anion, gaining electrons Radius increases Ionic Radii—Anions How does the radius of an anion compare to the parent atom? Atoms gain electrons to create negative ions e e e e e e + e e e e Oxygen atom O2- ion When electrons are gained, there are now more electrons than protons Therefore, the protons have a weaker “pull” on each of the electrons.

  22. Let’s Practice Example: List Li, Cs and K in order of increasing Atomic radii Ionization Energy Electron Affinity Example: List Li, N and C in order of increasing Atomic radii Ionization Energy Electron Affinity

  23. Let’s Practice Example: List Li, Cs and K in order of increasing Atomic radii Ionization Energy Electron Affinity Li, K, Cs Cs, K, Li Cs, K, Li Example: List Li, N and C in order of increasing N, C, Li Li, C, N Li, C, N Atomic radii Ionization Energy Electron Affinity

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