A Repeating Pattern in 3 Dimensions

Slides:

Advertisements

Similar presentations

Nanochemistry NAN 601 Dr. Marinella Sandros

Advertisements

Common crystal structures Simple close packed structures atoms hard spheres problem of structure most efficient packing Donuts * *Proposition made by Goldschmidt.

Unit Cell of Crystal Structure

The Muppet’s Guide to: The Structure and Dynamics of Solids 2. Simple Crystal Structures.

Solids Ch.13. Solids Fixed, immobile (so to speak) Fixed, immobile (so to speak) Symmetry Symmetry Crystals Crystals So what’s the inner order? So what’s.

Unit Cells Let’s look at two different ways to visualize the structure of a solid.

Lecture 4 The structure of crystalline solids L e a r n i n g O b j e c t i v es outcomes: 1.Describe the difference in atomic/molecular structure between.

Explaining Vapor Pressure on the Molecular Level Some of the molecules on the surface of a liquid have enough energy to escape the attraction of the bulk.

In the mineral graphite, the carbon atoms are arranged in sheets where the atoms are joined together in a hexagonal pattern and held together by the strongest.

The dimensions of a rectangular box are x 2 3 x 3 To find the VOLUME of the box, you must find how many 1 x 1 x 1 cubes will fill the box.

Crystals and Symmetry. Why Is Symmetry Important? Identification of Materials Prediction of Atomic Structure Relation to Physical Properties –Optical.

Structures of Solids. Glass (SiO 2 ) Crystal Noncrystal Solid.

Chapter 3 The Structure of Crystalline Solids Session I

Crystalline Structures Edward A. Mottel Department of Chemistry Rose-Hulman Institute of Technology.

Crystalline Structures Edward A. Mottel Department of Chemistry Rose-Hulman Institute of Technology.

Chapter 3: Structures of Metals & Ceramics

Ionic – Bonding and Crystal Structure. Valence and Lewis Bond Theory metals and non-metals exchange electrons eg. Na 2 O O [He]    2s 2 2p 4 Na [Ne]

Ionic/Covalent Compounds Characteristics & Counting Atoms/Molecules.

1 Structures of Solids n Solids have maximum intermolecular forces. n Molecular crystals are formed by close packing of the molecules (model by packing.

Unit cell/ packing efficiency. Given 8 spheres to stack, how would you do it? Simple cubic structure.

PERFECT CUBES What does that mean?. CUBE  We could make a list of “perfect cubes” by thinking of numbers of objects where these objects could be arranged.

VOLUME. So far, we have learned about length. This is a measure of 1 dimension.

Crystal Structures & X-ray Diffraction Chemistry 123 Spring 2008 Dr. Woodward.

PX3012 The Solid State Course coordinator: Dr. J. Skakle CM3020 Solid State Chemistry Course coordinator: Dr. J. Feldmann.

Understanding Phase Change Differences between the organization of particles in solids, liquids and gases affect how phase change takes place and how much.

GOAL: FACTOR CUBIC POLYNOMIALS AND SOLVE CUBIC EQUATIONS Section 6-5: Factoring Cubic Polynomials.

Ionic bonding between sodium and chlorine atoms. Electron transfer from Na to Cl creates a cation (Na + ) and an anion (Cl − ). The ionic bond is due to.

Crystalline Solids BLB 12 th Chapter 12 Sections 1-3, 5.

1 Solids. 2 Structures of Solids Crystalline vs. Amorphous Crystalline solid: well-ordered, definite arrangements of molecules, atoms or ions. –Most solids.

Metallic and Ionic Solids Sections

What is a mineral?. A mineral is 1.naturally formed 2.inorganic 3.solid 4.has a definite crystalline structure.

M. Anil Kumar Children’s club lecture, NCCR

ENGINEERING REQUIREMENTS OF MATERIAL Fabrication RequirementsService RequirementsEconomics Requirements.

UNIT CELL – The smallest repeating unit of a crystalline solid EXP11-1 (of 11) UNIT CELLS.

Crystalline Solids. p. 459 Macroscopic structure depends upon microscopic structure.

Notes Over 3.4Volume The volume of a box is the number of cubic units it can hold. Rectangular box: Cube: Sphere:

Inorganic Material Chemistry

Structure, Mechanical properties and its applications.

Crystal Structure and Crystallography of Materials Chapter 14: Diffraction Lecture No. 2.

Crystal Structure and Crystallography of Materials

Formulas for Lengths, Areas and Volumes

Concepts of Crystal Geometry

Conceptual Fraction Division

Basic Metallurgy Tomotsugu Sawai Director

Remember how we can use partitioning to help us to subtract?

Chemistry 481(01) Spring 2017 Instructor: Dr. Upali Siriwardane

CRYSTAL LATTICE & UNIT CELL

PHY 752 Solid State Physics

Solid State Lattices.

Primitive and conventional cells

Solid state chemistry Chapter 3

PH-571 Dr. Hla Ohio University

Covalent Bonding: Orbitals (cont’d)

Chapter 12 Unit Cells.

Structure of metals Metals exhibit different properties

Multiples and Factors.

Crystals and Symmetry.

SOLID STATE Crystals Crystal structure basics unit cells symmetry

UNIT CELLS UNIT CELL – The smallest repeating unit of a crystalline solid EXP11-1 (of 11)

Gases: Dimensionless particles in constant straight line motion colliding with their container walls 100 % elastically to create pressure.

Crystalline Structure

The Solid State.

What’s the Matter? Essential Question: How is matter alike or different on the molecular level?

NUMBER OF ATOMS PER UNIT CELL IN A CUBIC LATTICE

Phase Diagrams, Structures of Solids, Bonding in Solids

Crystal structure determination and space groups

Presentation transcript:

A Repeating Pattern in 3 Dimensions CRYSTAL STRUCTURE A Repeating Pattern in 3 Dimensions

Let’s Start with One Dimension

Now Let’s Try Two Dimensions

Now Consider 3 Dimensions

Anatomy of a Cube

Cubic Crystal Structures

Partitioning Atoms Among Cubes

Now Let’s Work Some Problems!

CsCl Crystal Structure

NaCl Crystal Structure

ZnS Crystal Structure

CaF2 Crystal Structure

Stacking Spheres

Stacking Spheres

Stacking Spheres

Stacking Spheres

Stacking Spheres

Stacking Spheres

Stacking Spheres

Stacking Spheres