Intramolecular Forces Intermolecular Forces

Slides:

Advertisements

Similar presentations

Chemical Bonding and the Periodic Table There are three types of elements METALS: have luster, are good conductors of heat and electricity, typically solid.

Advertisements

Chemical Bonding Objectives: 1.describe the nature of a chemical bond and its relationship to valence electrons 2.compare ionic and covalent bonding 3.use.

Ionic, Covalent and Metallic Bonding

Bonding Unit Today we will: -Define Ionic, and Covalent Bonding -Discuss ionic and covalent properties -Learn to draw Lewis Structures -Be Chemistry Match.

DO NOW: M.C. packet bonding questions. 1. Chemical compounds are formed when atoms are bonded together Breaking a chemical bond is an endothermic process.

Bonding Review -Define Ionic, and Covalent Bonding -Discuss ionic and covalent properties -Learn to draw Lewis Structures for Ionic and Covalent structures.

Chemical BONDING. Chemical Bond A bond results from the attraction of nuclei for electrons –All atoms trying to achieve a stable octet IN OTHER WORDS.

Created by C. Ippolito Dec 2006 Chemical Bonding Objectives: 1.describe the nature of a chemical bond and its relationship to valence electrons 2.compare.

The Octet Rule All atoms “want” a full valence shell of e- This makes them more stable, like the Noble Gases, which have 8e-, a full valence shell. For.

Valence electrons are important because…  They are the electrons in the outermost shell  They are the same for each element in a group (column).  Want.

Bonding Ionic Valence Electrons The number of valence electrons in an atom of an element determines the many properties of that element, including the.

Chapter 11 Chemical Bonding.

CHEMICAL BONDS Chemical Bond  Mutual electrical attraction between the nuclei and valence electrons of different atoms that binds the atoms together.

 Define these words  Ion  Ionic bond  Ionic compound  Chemical formula  Subscript  Covalent bond.

Chapter 6 Chemical Bonding. Sect. 6-1: Introduction to Chemical Bonding Chemical bond – electrical attraction between nuclei and valence electrons of.

Unit 6: Chemical Bonding Refer to Ch. 8 & 9 for supplemental reading.

Bonding Types and Properties 1. Identify compounds as ionic or molecular (covalent) based on ionic compounds being the combination of metals with nonmetals.

Chapter 7 and 8.  Valence electrons are responsible for the bonding between two atoms.

PAP Chapter 6 CHEMICAL BONDING Cocaine. Chemical Bonding  A chemical bond is a mutual electrical attraction between the nuclei and valence electrons.

Unit 4 Bonding Notes.  All chemical compounds are held together by bonds  We will be learning about 3 types of bonds  Ionic, Covalent, and Metallic.

Atoms and Bonding Review. Valence Electrons highest energy level held most loosly number of valence electrons determines many properties, especially how.

Bonding. Introduction to Bonding: Chemical bond: the force that holds two atoms together Bonds may be formed by the attraction of a cation to an anion.

Electrons & Bonding Chapters 7 and 8. Valence Electrons Electrons located in the outermost energy level (the last shell) Number of valence electrons =

Flashcards for Ionic & Metallic Bonding. What particle is transferred in ionic bonding? Electron.

CHAPTER 5: CHEMICAL BONDING Name:Prachayanee Chueamsuwanna Date: Oct. 19,2015.

Chemical Bonding Ionic, Covalent, and Metallic bonding.

Chapter 12 Ionic Bonding Transfer of electrons Covalent Bonding Sharing of electrons Metallic Bonding Sea of electrons Intermolecular Forces

Bonding. Representing Valence Electrons Lewis Dot structures Electron dot structures are diagrams that show the valence electrons as dots Electron dot.

I. INTRAMOLECULAR FORCES II. INTERMOLECULAR FORCES Bonding.

Molecules & Covalent Bonding

Chemical Bonds Lesson 1: Ionic Bonding.

LECTURE 6: COVALENT COMPOUNDS.

Chemical BONDING.

Unit 8 Bonding and Nomenclature

Major Bond Types COVALENT e- are shared between 2 atoms

Bonding Unit Today we will: -Define Ionic, and Covalent Bonding

Chapter 6 – Modern Chemistry

I. Introduction to Bonding

PAP Chapter 6 CHEMICAL BONDING

Chapter Exercises: Chemical Bonds (I):

Chapter 9 Chemical Bonds.

Intramolecular Forces Intermolecular Forces

Chemical (Intramolecular) Bonding

Station I. Creating Bonds

CHEMICAL BONDS.

Chemical Bonds.

Chemical Bonding.

Chemical BONDING.

Chemical Bonds Chemistry Chapter 6.

Chemical Bonding.

Chemical Bonds.

Chapter 6 p Bonding.

Unit 7: Bonding.

Unit 7: Bonding.

Flashcards for Ionic & Metallic Bonding

What? Why? When? Which? Where? How? Mod.H U.3 L3&4

Chapter 6A: Chemical Bonding

Chemical Compounds and Bonds

Chapter 7 & 8 Ions and Bonding.

Chapter 6A: Chemical Bonding

Chemical Bonding Notes

Unit 6 Bonding How elements interact..

Chemical bonding 3 Types of Chemical Bonds Ionic Covalent Metallic What can you describe about each of these bonds just by looking at the name?

Chapters 7 and 8 – Bonding.

Presentation transcript:

Intramolecular Forces Intermolecular Forces Bonding Intramolecular Forces Intermolecular Forces

Chemical Bond A force that holds groups of 2 or more atoms together to make them function as a unit

Why? Atoms form bonds to obtain a “noble gas configuration” Octet Rule- Atoms need to have 8 valence electrons

Types of Bonds Metallic Bonds: specific only to metals Ionic: results from transfer of electrons Covalent: results from sharing of electrons Coordinate covalent bond: when one atom provides both electrons of the shared pair

Metallic Bonding Metallic characteristics Occurs between like atoms of a metal in the free state Valence e- are mobile (move freely among all metal atoms) Positive ions in a sea of electrons Metallic characteristics High mp temps, ductile, malleable, shiny Hard substances Good conductors of heat and electricity as (s) and (l)

It is the mobile electrons that allow the metal to conduct electricity

Ionic Bonds Force of attraction between closely packed opposite ions Atoms that lose electrons easily (metals) Atoms that gain electrons easily (nonmetals) Electrons are transferred from metal to nonmetal Oppositely charged ions form and they attract each other.

Ionic Compounds The ions combine in quantities that provide the stable octet for each element involved They are electrically neutral, so the charges must balance out to zero, as we learned in our formula writing topic.

Properties of Ionic Compounds Hard Poor electrical conductors (solids) Good electrical conductors (in molten and solution) High melting and boiling points Dissolve in water Form crystalline solids

Ionic Lewis Diagrams Step 1 after checking that it is IONIC Step 2 Determine which atom will be the +ion Determine which atom will be the - ion Step 2 Write the symbol for the + ion first. NO DOTS Draw the e- dot diagram for the – ion COMPLETE outer shell Step 3 Enclose both in brackets and show each charge

Covalent In covalent bonding electrons are SHARED by the nuclei of each of the atoms present WHY? http://www.youtube.com/watch?v=1wpDicW_ MQQ https://www.youtube.com/watch?v=LkAykOv1 foc#t=29.851

Characteristics of Covalent Compounds Soft Poor conductors of electricity Poor heat conductors Low melting point High vapor pressures

Lewis Structures for Covalent

Covalent bonding: two types Nonpolar Results from EQUAL sharing Electronegativity difference 0 Polar Results from UNEQUAL sharing Note electronegativity difference between 0 and 1.7

Using Electronegativity to determine bond polarity H-H H-S H-Cl H-O H-F

Choose the More Polar Bond A) H-P or H-C B) O-F or O-I C) N-O or S-O D) N-H or Si-H

Lewis Structures Diagrams for bonding in molecules Lines correspond to 2 electrons in bond Lewis structures are representations of molecules showing all valence electrons, bonding and nonbonding.

Lewis Structures Keep the following in mind: Must include all of the valence electrons from all of the atoms. The total number of electrons available in the structure is the sum of all the valence electrons from all of the atoms in a molecule Atoms that are bonded to each other share one or more pairs of electrons The electrons are arranged to fill the valence orbitals of that atom. This means 2 electrons for H, 8 for other elements

Lewis Structures A way to keep track of those valence electrons Find the sum of valence electrons of all atoms in the substance PCl3 5 + 3(7) = 26

Lewis Structures A way to keep track of those valence electrons The central atom is the least electronegative element that isn’t hydrogen (why?). Connect the outer atoms to it by single bonds. Keep track of the electrons: 26  6 = 20

Writing Lewis Structures Put eight electrons around the outer atoms (“fill their octet”) Keep track of the electrons: 26  6 = 20  18 = 2

Writing Lewis Structures Fill the octet of the central atom. Keep track of the electrons: 26  6 = 20  18 = 2  2 = 0

Writing Lewis Structures If you run out of electrons before the central atom has an octet… …form multiple bonds until it does.

Lewis Structures Try drawing the Lewis structure for each molecule: NF3 N2 CO2 SO32- CCl4 O2 H2

Summary https://www.youtube.com/watch?v=KjoQHqgzda8 https://www.youtube.com/watch?v=wYZg1j7o2x4&ebc=ANyPxKryVMXWuhz6cg_UxEfwZHCa7yI LX5elCuThuVg2h45P6bPR-UTe_bw3tO35eWdvZu7JSpJf7TmC3o129mvZ33r3FQ5wCA