More on Ions.

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More on Ions

Achieving Noble Gas Electron Configuration Record into your notes Achieving Noble Gas Electron Configuration An ion forms when an atom loses electrons (OIL, oxidation) or gains electrons (RIG, reduction) to achieve noble gas electron configuration Recognize the appearance of Bohr’s Model after an atom loses or gains electrons to form ions and/or how two atom share their electrons covalently to achieve noble gas electron configuration.

Ionic Structure • • • • [Na]1+ • • • • [Mg]2+ Supplemental packet page 50 Ionic Structure sodium-23 ion Na 11 23 1+ • • • metal cation positive ion 1+ charge combines w/ anions • 11 12 10 More protons than electrons [Na]1+ 1s2 2s2 2p6 3s0 magnesium-24 ion Mg 12 24 2+ • • • metal cation positive ion 2+ charge combines w/ anions • 12 10 More protons than electrons [Mg]2+ 1s2 2s2 2p6 3s0

[ ]1- [ ]2- Ionic Structure • • • • • • • • • • • • • • Cl [Na]1+ • • Supplemental packet page 50 Ionic Structure • • • sodium-23 ion Na 11 23 1+ • • • chloride-35 ion Cl 17 35 1- • • • metal cation positive ion 1+ charge combines w/ anions nonmetal anion negative ion 1- charge combines w/ cations • • 11 12 10 More protons than electrons 17 18 More electrons than protons • • • Cl [ ]1- [Na]1+ 1s2 2s2 2p6 3s0 1s2 2s2 2p6 3s2 3p6 magnesium-24 ion Mg 12 24 2+ • • • metal cation positive ion 2+ charge combines w/ anions • • • oxygen-16 ion O 8 16 2- nonmetal anion negative ion 2- charge combines w/ cations • • 12 10 8 10 More protons than electrons More electrons than protons • • • O [ ]2- [Mg]2+ 1s2 2s2 2p6 3s2 1s2 2s2 2p6 3s0

Please note the movement of the red colored valence (outermost) electron on sodium. It is transferred over to the fluorine atom. Bohr Models Lewis dot structures

Please note the movement of the red colored valence (outermost) electron on the 1) _______ atom. It is transferred over to the 2) ________ atom. Fill in the blanks ANS. 1)Mg, 2)Cl

Record into your notes Ions isoelectronic (“same electronic configuration”) with noble gases • • • Cl [ ]1- [Na]1+ [Ne] [Ar] 1s2 2s2 2p6 1s2 2s2 2p6 3s2 3p6 • • • O [ ]2- [Mg]2+ [Ne] [Ne]

nonmetals gain just enough electrons to achieve noble gas Please note the addition of the red colored valence (outermost) electrons to each atom listed. Recognize boron, B, is a semimetal, not a nonmetal. Draw the following into your notes opposite page 64 nonmetals gain just enough electrons to achieve noble gas e- configuration of the noble gas in their period (row) semimetal nonmetals ions • • • • • • • • • • C 4 – carbide ion N 3– nitride ion O 2– oxide ion F – fluoride ion Please Note: the nonmetals like to gain electrons & the stability of these ions is associated with 8 valence electrons (an octet)

Chapter 5 - Introduction to Chemical Bonding

Electrostatic attractions Electrostatic repulsions Ions isoelectronic (“same electronic configuration”) with noble gases • • • Cl [ ]1- [Na]1+ Electrostatic attractions Opposites attract [Ne] [Ar] Electrostatic repulsions Like charges repel • • • O [ ]2- [Mg]2+ [Ne] [Ne]

Ionic Bonding (transferring electrons to achieve noble gas electron configuration) 1.Opposites attract (cation attracts an anion) 2.Brought together by electrostatics 3.Ions coming together to balance charge • • • Cl [ ]1- [Na]1+ • • • Cl [ ]1- • • • Cl [ ]1- sodium chloride [Mg]2+ • • • O [ ]2- magnesium chloride [Mg]2+ magnesium oxide

Looking ahead to Chapter 6 Covalent Bonding (sharing electrons to achieve noble gas electron configuration) 1. Bonding for FONCl BrISCH nonmetals 2. Brought together by sharing of electrons 3. Achieving an OCTET of valence electrons versus Chapter 5 - Ionic Bonding Ionic Bonding (transferring electrons to achieve noble gas electron configuration) 1. Opposites attract (cation attracts an anion) 2. Brought together by electrostatics 3. Ions coming together to balance charge

Looking ahead to Chapter 6 Please note the addition of the red colored valence (outermost) electron by the in coming hydrogen atom which will be shared by both atoms. Covalent Bonding (sharing electrons to achieve noble gas electron configuration) nonmetals bond to hydrogen to achieve noble gas e- configuration of the noble gas in their period (row) • H Addition of hydrogen Achieving an OCTET valence • H • H • H • H • H • H • H • H • H • H CH4 methane gas NH3 ammonia gas H2O water HF hydrogen fluoride molecules of nonmetals hydrides Looking ahead to Chapter 6

[ ]1- •• •• • •• • •• •• • •• • [Na]1+ Ionic substances Supplemental packet page 64 • • • Cl [ ]1- •• •• • •• • molecules of nonmetals hydrides •• •• • •• • 1+ 2+ 3+ 4- 3- 2- 1- 1 2 3 4 3 2 1

Supplemental packet page 64 To these molecules, Add missing nonbonding pair of electrons

Favorite bonding modes for nonmetals C, N,O, halogen, H (2) (1) (4) (3) •N O , nitrogen and oxygen may have variable number of bonds C N O F H •Know the preferred total number of bonds to these elements 4 3 2 1 1

Ideal bonding for carbon = Four bonds to carbon - Four bonding modes Supplemental packet page 68 valence shell electron pair repulsion Ideal bonding for carbon = Four bonds to carbon - Four bonding modes 104.5 107.5 109.5 109.5 120 q<120 120 180 180 tetrahedral trigonal planar linear Ideal bonding angles for carbon pyramidal or trigonal pyramid bent Bond angles are less than ideal angle Electron pair occupies a lot of space & is held close to nucleus of central atom