Upload File

ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are...

  • Home
  • Documents
  • Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained
25
Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained electrons (anions) are larger.

Upload: david-daniel

Post on 01-Jan-2016

216 views

Category:

Documents


3 download

Report

Tags:

TRANSCRIPT

Page 1: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained electrons (anions) are larger.

Page 2: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

05_08.jpg

Page 3: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

If two cations are similar in ionic radius, one may substitute for another in a mineral structure. One of the more common substitutions is between Fe2+ (~0.63 angstrom) and Mg2+ (~0.57) and often a mineral contains a mixture of both

Example is olivine - Fe2SiO4 = fayalite; Mg2SiO4 = forsterite; olivine = (Mg,Fe)2SiO4

Ca2+ and Na+ can also substitute for each other in plagioclase feldspar.

Page 4: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

05_09_10and12.jpg

Page 5: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

05_09c.jpg

Page 6: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

Silicates (SiO4)4-: The largest mineral group due to the fact that silicates are made up of the two most abundant elements in the crust: silicon and oxygen.

The basic building block is the silica tetrahedra

As oxygen : silicon ratio decreases, more and more silicon ions must share oxygen atoms in order to complete their tetrahedra.

Page 7: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained
Page 8: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

Silicate mineralogy

Page 9: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

1.Isolated tetrahedra (monomer). O:Si = 4, olivine is the most common example (Fe,Mg)2SiO4 no cleavage. Understand Solid solution of Fe-Mg

2.Single chain - silicate tetrahedra share oxygens with two other tetrahedra forming a long open ended chain. O:Si = 3 , pyroxenes, 2 cleavages at ~90, Si2O6

3.Double chain: two singles chains link together so each tetrahedra shares oxygens with three other tetrahedra. O:Si = 2.75, amphiboles, 2 cleavages at 60 and 120, Si8O22

Page 10: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

4.Sheet silicates: silica tetrahedra form large sheets (link to three other tetrahedra) with all of the non-shared oxygens pointing in the same direction, Micas (biotite, muscovite):1 direction of cleavage. O:(Si+Al) = 2.5

5. Framework silicates: 3-d frameworks, all oxygens shared. O:Si+Al = 2. Common groups include quartz and feldspars (potassium feldspar/orthoclase, plagioclase). Most abundant minerals in the earth’s crust. (Solid solution in plagioclase)

Can see increasing amount of SiO2 with increasing polymerization-also lower temperature.

Page 11: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained
Page 12: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

• Cabonates: calcite, dolomite

• Oxides: magnetite, hematite

• Sulfides, sulfates, halides, native elements

Page 13: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

05_11.jpg

Page 14: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

05_13.jpg

Page 15: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

05_14.jpg

Page 16: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

How to ID minerals:

Hardness: Moh’s scale

Specific gravity

Other properties (fizz, magnetic)

Page 17: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

Moh’s scale

Page 18: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

Color not always!

Page 19: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

streak

Page 20: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

Crystal habit

Page 21: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

Cleavage-feldspars

Page 22: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

Cleavage

Page 23: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

05_19de.jpg

Page 24: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

Concoidal fracture

Page 25: Ionic radius is related to the valence of the ion - ions that have lost electrons (cations) are smaller than their neutral state, ions that have gained

Carbonates fizz


 · 248E Mobile Anions-Immobile Cations-Mobile Cations (h Mobile Cations-lmmobile Ions-Mobile Oxyanions (I Na Hg . Cd cr Al c Mobile Oxyanions -Immobile Ions-Mobile Cations (r

Study the assigned polyatomic ions! · 9.1 Naming Ions >Monatomic Ions. Slide 9of 39 • Ions of most transition metals + Pb & Sn – charge may vary – some metal cations with more

Chapter 6. Ions Elements within each group of the periodic table behave similarly because they have the same number of valence electrons. Valence electrons

B ONDING Unit 4. O VERVIEW Valence electrons Ions (cations/anions) Types of bonds Ionic, covalent Properties of bonds Bond strength, hardness/texture,

Positively charged ions are called cations (named first)

Study the assigned polyatomic ions! - Amazon S3 · 9.1 Naming Ions >Monatomic Ions. Slide 9of 39 • Ions of most transition metals + Pb & Sn – charge may vary – some metal cations

Salts and Electrolysis Lab. Ionic compounds Made of positive ions = cations (metal or polyatomic ion) -AND- negative ions = anions (nonmetal or polyatomic

NOTES: 7.1 - Ions. Valence Electrons: ● Knowing electron configurations is important because the number of valence electrons determines the chemical properties

atoms that lose or gain electrons become ions cations have + charge anions have – charge cations and anions are attracted to each other by elecrostatic

Slide 1 of 39 Chemistry 7.1. © Copyright Pearson Prentice Hall Ions > Slide 2 of 39 Valence Electrons How do you find the number of valence electrons

Metal Ions of Cations and Anions Separation and Detection

Ions & Ionic Bonding Section 7.1: Ion Formation; pg 206-209 Learning Goals: – I understand how positive ions (cations) and negative ions (anions) are

Chemistry 11 Review Group Period Family Electronic configuration Orbital Long version Short version Atoms Ions: cations & anions Valence Atomic charge

Chemistry of Some Amphoteric Cations (Sn2+; Pb2+doktori.bibl.u-szeged.hu/2561/2/BEG_tezisfuzet_eng.pdf · Chemistry of Some Amphoteric Cations ... The hydrolysis of metal ions is

Unit 6 Chemical Naming and Moles Chapter 9-10. Naming Ions Positive Ions, cations, simply retain their name. Na + Sodium Ion Mg 2+ Magnesium Ion

ELECTROCHEMISTRY. During electrolysis positive ions (cations) move to negatively charged electrode (catode) and negative ions (anions) to positively charged

Unit 6A: Ionic and Covalent Bonding. Ions Why do elements in the same group behave similarly? They have the same number of valence electrons. Valence

Bonding HL and SL 4.1 Ionic Bonding An ionic bond is an electrostatic attraction between ions of opposite charge. Positive ions (or cations) are formed

04 and˜structure Chemical bonding€¦ · 4.1 Ionic bonding and structure Understandings: ˚ Positive ions (cations) form by metals losing valence electrons. ˚ Negative ions (anions)

Chapter 7. Ions Elements within each group of the periodic table behave similarly because they have the same number of valence electrons. Valence electrons

VSEPR MODEL Valence Shell Electron Pair Repulsion Model A model for predicting the shapes of molecules and ions in which valence shell electron pairs are

Unit: Electron Configurations Noble gas abbreviations, Configurations for Ions, and Valence Electrons Day 3 - Notes

Notes 6 - Ions & Chemical Bonding. Unstable Atoms ► In order to be stable, an atom needs a certain number of valence electrons 2 valence e - if it only

DESTABILIZED CABBENIUM IONS: a-A~~a,~-D~~~~ CATIONS · Within the family of C,H,O+ ions, the ions a are less stable than the trimethylacetyl cations, b, the protonated 3-methyl-3-buten-2-one

Chapter 9 · 9.1 - Naming Ions. Monatomic ions: Single atom with a positive or negative charge resulting from the loss or gain of one or more valence electrons. - Cations: Groups

Important Ions. Discussion Approach: Ions of Major Interest in Soil Chemistry, Grouped According to Major Behavior Modes. Major Exchangeable Cations:

Part 1 Electrolytes. Electrolytes Electrolytes are ions capable of carrying an electricl charge Anions: (-) → Anode Cations: (+) → Cathode Major cations

Covalent Bonds. Ionic Bonds Review Valence electrons are given or taken Metals and nonmetals only! (Polyatomic ions) Form ions (charged particles)

Tests for cations in solution. Cations are positive ions. The cations you need to be able to identify are: copper iron(III) silver iron(II) magnesium

Chemicals that dissolves in water and dissociates into positive and negative ions Most are inorganic salts, acids and bases Positive ions = cations

LecturePLUS Timberlake1 Chapter 4 Compounds and Their Bonds 4.1 Valence Electrons 4.2 Octet Rule and Ions

Electrons in outermost shell are called valence electrons and the valence shell is the outermost occupied shell Electron Configuration of Ions CATIONS

Chemical Nomenclature Unit Valence Valueunit.pdf · Chemical Nomenclature Unit Valence Value ... 2-are referred to as radicals or polyatomic ions. ... Radical name Formula Valence

Ions Chapter 7 Section 1. Valence Electrons Electrons in the highest occupied energy level of an element The number of valence electrons largely determines

Ions cations and anions