Bonding and Structure in Solids

Slides:

Advertisements

Similar presentations

Solids  Ionic Crystals  Strength of attractive forces in ionic crystals is indicated by Coulomb’s law,  F = q 1 q 2 /r  Forces tend to be very large.

Advertisements

Solids differ: Hardness Melting point Flexibility Conductivity Solids form crystal lattice structures: Repeating pattern of molecules Determined by x-ray.

Ionic, Covalent and Metallic structures of solids

Intermolecular Forces and Physical Properties Chemistry Unit 6.

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.

IM Forces Section States of Matter Forces Between Particles in Solids and Liquids Ionic compounds –Attractive forces between oppositely charged.

Structure, Bonding & Properties of Solids

Bonding in Solids Sovay, Jen and Miranda. Overview Physical properties of crystaline solids, such as melting point and hardness depend on the arrangements.

Intermolecular Forces, Liquids and Solids

Solids. Motion & Arrangement Vibrate about center of mass. – Cannot “translate” or move from place to place. – Cannot slide past each other or flow. Packed.

Liquids and Solids Solids.

SolidsSolids Adapted from a presentation by Dr. Schroeder, Wayne State University.

Chapter 11 Structure of solids continued. Structure and Bonding in Metals Metals have: –High thermal and electrical conductivity –Are malleable –Are Ductile.

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

Chapter 12 – Solids and Modern Materials 11

Metallic Bonds and Intramolecular Forces. Metallic Bond Bond that exists between metal atoms Alloy – two or more different metal atoms bonded together.

Bonding in Solids Valentin Panyushenko Chris Zheng.

Solids AMORPHOUS- THOSE WITH MUCH DISORDER IN THEIR STRUCTURE. CRYSTALLINE- HAVE A REGULAR ARRANGEMENT OF COMPONENTS IN THEIR STRUCTURE.

Chapter 11 Sections 7 and 8 Sherry Matthew Mary Same Rachel Wolver.

Types of Solids SCH 4U1. Types of Solids  We will classify solids into four types: 1. Molecular Solids (Polar and NonPolar) 2. Metallic Solids 3. Ionic.

Types of Solids SCH 4U1. Types of Solids We will classify solids into four types: 1.Ionic Solids 2.Metallic Solids 3.Molecular Solids (Non Polar and Polar)

Structure of Solids Chapter 11 Part III.

Lesson Starter Compare the plaster of Paris mixture before it hardens to the product after it hardens. Section 3 Solids Chapter 10.

Intermolecular Forces

States of Matter Solids. States of Matter  Objectives  Describe the motion of particles in solids and the properties of solids according to the kinetic-molecular.

Solids, Liquids, Gases (and Solutions). Three Phases of Matter.

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

Macromolecules (Network Covalent) Last part of Topic 4.3.

1 Types of Solids Chap. 13: Day 4b. 2 Metallic and Ionic Solids Sections

Properties of Solids  Definite shape and volume  Particles are close together so attractive forces (bonds and IMFs!) are strong  Highly ordered  Rigid,

Do Now: Explain the following in terms of Structure & Bonding. Solid sodium chloride does not conduct electricity, but when it is melted, sodium chloride.

An ionic lattice: a giant regular repeating pattern of alternating positive and negative ions in 3D. The packing structure of the ions depends on the relative.

Physical Properties Liquids & Solids. Liquids vs. Solids LIQUIDS Stronger than in gases Y high N slower than in gases SOLIDS Very strong N high N extremely.

Chapter 11 Intermolecular Forces, Liquids, and Solids Jeremy Wolf.

Solids. Molecules Vibration motion Vibration motion Vibration motion.

Properties of Solids.

IMF and Solids Image:Wikimedia Commons User Alchemistry-hp.

10.3: Solids By: Grace, Rosa, Zoie and Jaylen. Properties of Solids in Kinetic- Molecular Theory The particles of a solid are closely packed, therefore.

Kintetic Molecular Theory

Macromolecules (Covalent Network Solids) Last part of Topic 4.3

Bonding in Solids Sovay, Jen and Miranda.

Table of Contents The Kinetic-Molecular Theory of Matter

CH. 12 SOLIDS & MODERN MATERIALS

11.7 Solids There are two groups of solids: Crystalline solids

Kintetic Molecular Theory

Structure of Solids Chapter 11 Part III.

Solids Chem 112.

Types of Solids SCH 4U1.

Bonding and Structure in Solids

Chem. warm-up: What is the difference between an ionic and covalent compounds? Ionic compounds are made of ions (Cations & Anions) and transfer electrons,

Chapter 3: Solid State Chemistry Week 7

Chapter 3: Solid State Chemistry

Structure and Properties of Solids

PARTICLES THAT SUBSTANCES ARE MADE OF

Solids Amorphous Solids: Disorder in the structures Glass

Crystal structures.

Properties of Solids and the Kinetic-Molecular Theory

Chapter 7: Properties of Ionic Covalent and Metal Materials

States of Matter Solids.

Structure and Properties of Solids

States of Matter Lesson 4.3

Chapter 13.3 The Nature of Solids.

Bonding in Solids There are four classifications of solids, depending

CLASSIFICATION OF SOLIDS

Types of Solids Presentation.

The Structure and Properties of Solids

The Solid-State Structure of Metals and Ionic Compounds

Presentation transcript:

Bonding and Structure in Solids SCH4U

Molecular Solids Intermolecular forces: dipole-dipole, London dispersion and H-bonds. Weak intermolecular forces give rise to low melting points & soft solids Room temperature gases and liquids usually form molecular solids at low temperatures. Here is the structure of ice. Notice how the hydrogen bonds become rigid forming a lattice linking each molecule of water together.

Structure in solids Crystalline Solids: the atoms, ions, or molecules are ordered in well-defined three-dimensional arrangements. Have faces and make definite angles. Amorphous solids: a solid in which particles have no orderly structure. There is no well-defined shape or face. Solids do not stack well together. Eg. Rubber or Glass

Crystalline vs. Amorphous Structures

Structures of Crystalline Solids (AP) Each repeating unit is reffered to as a Unit Cell. Unit cells create a crystal lattice. Unit Cell  Crystal Lattice 

Types of Unit Cells There are seven basic types of unit cells. Cubic Unit Cell Primitive Cubic Body Centered Cubic Face-Centered Cubic Each has a different arrangement of lattice points.

Types of Unit Cells

Sample Problem Determine the net number of Na+ and Cl- ions in the NaCl unit cell shown in the Figure.

Close Packing of Spheres Arrangement of particles in closest contact to maximize attractive forces. Hexagonal Close Packing ABAB pattern Cubic Close Packing  ABCA Pattern

Bonding in Crystalline Solids

Covalent Network Solids Consist of atoms held together, through the entire sample of material in large networks or chains by covalent bonds. Harder and have higher melting points than most molecular solids. Diamond, graphite, silicon, germanium, quartz, SiO2, silicon dicarbide, SiC, BN In diamond each C is bondend tetrahedrally to four other carbon atoms. In graphite, C are bonded in trigonal planar geometries to three other C to form interconnected hexognal rings

Ionic Solids Ions are at the lattice points. Strength of bonds depends on charges Electrostatic attraction keeps them frozen into this position.

Metallic Solids Also called metals, consist entirely of metal atoms. Bonding is very strong and is due to delocalized valence electrons throughout the entire solid. In general, the melting point increases as the number of electrons available for bonding increases.