1 / 31

Chapter 6

Chapter 6. Ionic Bonds and Some Main-Group Chemistry. Ions and Their Electron Configurations. Chapter 2 Metals lose electrons to form cations Main group elements tend to lose the same # of electrons as their group number Nonmetals when combined with metals gain electrons to form anions

thina
Download Presentation

Chapter 6

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Chapter 6 Ionic Bonds and Some Main-Group Chemistry

  2. Ions and Their Electron Configurations • Chapter 2 • Metals lose electrons to form cations • Main group elements tend to lose the same # of electrons as their group number • Nonmetals when combined with metals gain electrons to form anions • The number gained = 8 – group # • WHY???????

  3. Ions and Their Electron Configurations • Main Group Elements - the number of electrons gained or lost = the number of electrons necessary to obtain the nearest noble gas or pseudo-noble gas configuration (filled d-orbital). • Main group metal – the # electrons lost often = # of valence electrons • Nonmetal – the # electrons gained = # of electrons necessary to achieve 8 in the valence shell • Na, Ne, Na+ O, Ne, O2- • K, Ar, K+ Cl, Ar, Cl- • Ga, Ga3+ Sn, Sn4+

  4. Ions and Their Electron Configurations • Transition element ions formed by • 1st losing their valence electrons • 2nd losing d-orbital electrons to obtain the charge • Fe2+ Fe3+ Co2+ Co4+ • Ag+ Zn2+

  5. Problem • Select the correct set of quantum numbers (n,l,ml,ms) for the first electron removed in the formation of a cation for strontium, Sr.  • A.  5, 1 , 0, -½ • B.  5, 1, 0, ½ • C.  5, 0, 1, ½ • D.  5, 1, 1, ½ • E.  5, 0, 0, -½

  6. Ionic Radii • Effect of charge on ionic radii evaluated using atomic size and Zeff • Atomic size increases with increasing energy levels • Zeff • Cation – more protons than electrons – stronger attraction • Anion – less protons than electrons – weaker attraction • Cation < Neutral atom < anion

  7. Ionic Radii

  8. Ionization Energy • Ionization Energy (Ei) – the energy required by 1 mole of gaseous atoms for 1 mole of electrons to be ejected. • Na EI Na+ + e- • Energy necessary to make a cation • More energy required for smaller atoms

  9. Ionization Energy

  10. Ionization Energy Trend • Increases across a period – held tighter • Decreases down a group – larger (n)

  11. Higher Ionization Energies • Ionization energy not limited to a single electron • 2nd electron removed requires even more energy • Removal of first leads to more protons than electrons • To break into a noble gas configuration requires a lot of energy because of their stability

  12. Problem • Which one of the following equations correctly represents the process relating to the ionization energy of X?  • A.  X(s) → X+(g) + e- • B.  X2(g) → X+(g) + X-(g) • C.  X(g) + e- → X-(g) • D.  X-(g) → X(g) + e- • E.  X(g) → X+(g) + e-

  13. Problem • Which of the following elements has the smallest first ionization energy?  • A.  Rb • B.  Mg • C.  I • D.  As • E.  F

  14. Problem • Which of the following elements has the largest second ionization energy (IE2)?  • A.  Li • B.  B • C.  O • D.  F • E.  Na

  15. Electron Affinity • Electron Affinity (Eea) - Describes the energy associated with the absorption of 1 mole of electrons by 1 mole of gaseous atoms • Cl + e- Cl- • Can be positive or negative • Positive – energy had to be added to force the atom to absorb the electron (non-favored) • Negative – energy was given off when the electron was added to the atom (favored)

  16. Electron Affinity

  17. Electron Affinity • Trend • Eea becomes more negative across a period • Eea becomes more positive down a group • Larger atoms don’t care as much

  18. Problem • Which one of the following equations correctly represents the process involved in the electron affinity of X?  • A.  X(g) → X+(g) + e- • B.  X+(g) → X+(aq) • C.  X+(g) + e- → X(g) • D.  X(g) + e- → X-(g) • E.  X+(g) + Y-(g) → XY(s)

  19. Problem • Select the element with the most negative electron affinity (i.e., accepts an electron most readily).  • A.  H • B.  Li • C.  C • D.  F • E.  Ne

  20. Ionic Bonds and the Formation of Ionic Solids • Ionic bonds: • Form when an element with a small Eivalue comes in contact with an element with a negative Eeavalue.

  21. Ionic Bonds and the Formation of Ionic Solids • The energetics of ionic reactions can be viewed on a Born–Haber Cycle which shows how each step contributes to the overall reaction energy. • That energy is called the lattice energy (U) of the solid. By convention, the lattice energy refers to the breakupof the crystal into ions.

  22. Ionic Bonds and the Formation of Ionic Solids Born–Haber Cycle for NaCl:

  23. Ionic Solids and the Formation of Ionic Compounds Born–Haber Cycle for MgCl2:

  24. Ionic Bonds and the Formation of Ionic Solids • Calculate the lattice energy (in kJ/mol) for the formation of CaH2 from its elements. • Calculate the overall energy change (in kJ/mol) for the formation of CaCl from its elements. • Calculate the overall energy change (in kJ/mol) for the formation of CaCl2 from its elements. • Which is more likely to form, CaCl or CaCl2?

  25. Ionic Bonds and the Formation of Ionic Solids • Trends in Lattice Energy • Increases with increasing charge • Increases with decreasing ion size

  26. The Octet Rule • General Conclusions • Group 1A form +1 by losing ns1 electron to obtain noble gas configuration • Group 2A form +2 by losing ns2 electrons to obtain noble gas configuration • Group 3A tend to form +3 by losing ns2np1 electrons to obtain noble gas configuration • Group 7A gain 1 electron to form ns2np6 hence giving them a noble gas configuration • Group 8A neither gain nor lose electrons because of stability of configuration

  27. The Octet Rule • Octet Rule – main group elements tend to undergo reactions that leave them with 8 outer shell electrons • Why does the rule work?

  28. The Octet Rule • Electrons of metals are most likely lost due to the fact that: • core electrons are shielding them from the nucleus • Zeff is lower • Small ionization energies • Upon loss they obtain noble gas configuration

  29. The Octet Rule • Nonmetals are most likely to gain electrons due to the fact that: • no additional shielding occurs from the nucleus occurs due to core electrons • Zeff is higher • More negative electron affinities • Upon gain they obtain noble gas configuration

  30. Optional Homework • Text – 6.30, 6.36, 6.38, 6.40, 6.42, 6.44, 6.46, 6.48, 6.58, 6.64, 6.66 • Chapter 6 Homework

  31. Required Homework • Assignment 6

More Related