Crux of the Matter Unit 4 Chapters 7 and 8.

Slides:

Advertisements

Similar presentations

BONDING REVIEW You need a Periodic Table, Electronegativity table & Polarity chart!

Advertisements

1 Chemical Bonding Chapter Structure Determines Properties! A cardinal principle of chemistry is that the macroscopic observed properties of a material.

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

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.

HONORS REVIEW.  What are valence electrons?  What are valence electrons Electrons in the outermost energy level.

Ionic and Metallic Bonding Chapter 7. WHAT IS AN ION? An atom or groups of atoms that has a positive or negative charge.

Bonds Chemical Bonds Unit 3 Chemistry I. Elements and Periodic Table  Elements are organized into columns and rows  Columns have same number of valence.

Covalent Bonding (Molecular Compounds) Subtitle. Properties of a Covalent Bond Formed when at least one pair of electrons are shared between non-metals.

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.

Chemical Bonding Chapter 6 Sections 1, 2, and 5. Chemical Bonds A chemical bond is the mutual electrical attraction between the nuclei and valence electrons.

Chapter 6: Bonding… Chemical Bonding  Describe covalent, ionic and metallic bonds  Classify bond type by electronegative difference  Explain why atoms.

 Bonds can be classified as being either polar or non-polar.  Polarity: tendency of a molecule, or compound, to be attracted or repelled by electrical.

Ch Chemical Bonding Covalent Bonds ____________ electrons between two atoms in order to fill the outer energy level (or shell) Each bond involves.

6-1 Introduction to Chem Bonding *a link between atoms that results from the mutual attraction of their nuclei for e-

BONDINGPREVIEW. Bonds Between Atoms Covalent Ionic Polyatomic Ions Metallic Molecular Substance Polar Nonpolar Coordinate Covalent Network Solids What.

1.Ionic 2.Bonds 2. Covalent Bonds 3. Covalent Structures 4. Polarity 5. Other Bonding

Ionic Compounds Ionic Compounds (SALTS) formed by transferring electrons (giving/taking) occurs between a metal and a non-metal have an electro negativity.

I Chemical Bonding. Chemical Bond  attractive force between atoms or ions that binds them together as a unit  bonds form in order to…  decrease potential.

Chemical Bonding ©2011 University of Illinois Board of Trustees

The Chemical Bond. Chemical Bonds  Are the forces that hold atoms together to form compounds  Bond energy – the amount of energy needed to break a bond.

A. Ionic Bonding 1. attraction between large numbers of (+) ions and (-) ions 2. results when there is large electronegativity differences 3. generally.

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

Chemical Bonding. Chemical Bonds Compound are formed from chemically bound atoms or ions Bonding only involves the valence electrons.

Chemical Bonding Chapter 6 General Chemistry Valence Electrons Valence electrons ______________________________ _______________________________________________.

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

Warm Up What does VSEPR stand for?

VSEPR Theory: Molecular Shapes Most shapes are based on a __________________. Examples: CH 4 CCl 4 Removing the top of the tetrahedral makes the ________________.

Page 77 Strength of Chemical Bonds Tuesday – Polyatomic Quiz -1’s Wednesday – Polyatomic Quiz Mixed *** Thursday – Polyatomic Quiz Mixed 2 Friday – Polyatomic.

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

Properties of ionic compounds Standard chem Objectives 7 Properties of ionic compounds and relation to the ionic bond.

NOTES Ionic vs. Molecular Compounds. AKA Salts Formula units Molecular compounds Molecules IONIC / IONIC COVALENT / MOLECULAR.

Chapter 6 Chemical Bonding.

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

CHEMICAL BONDING. Why do bonds form? To complete the valence or outer energy level Octet Rule – 8 is great! A bond forms when 2 atoms attract the same.

Covalent Compounds Chapter 8. Section 1, Covalent Bonds –Remember, ionic compounds are formed by gaining and losing electrons –Atoms can also share electrons.

Comparing Properties of Ionic and Molecular Compounds.

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

Chem I Chapter 6 Chemical Bonding Notes. Chemical Bond – a mutual attraction between the nuclei and valence electrons of different atoms that binds the.

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

Ch. 12 Notes---Covalent Bonds

SECTION 1.2 PAGES 8-11 Types of Chemical Bonds. Ion Formation Ions are charged particles that form during chemical changes when one or more valence electrons.

Chemical Bonding Chp 6 pg 165. I. Chemical Bonding A. Intro 1. Chem bond – electrical attraction b/w nuclei and valence electrons of different atoms 2.

Unit 7: Bonding NaCl N2N2 Overview Chemical bonds provide the glue that hold compounds together… In this unit you will learn:  The different types of.

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

Chemical Bonding b Chapter 6. Chemical bond b The force (electrical attraction) that binds two atoms together.

Apply electronegativity values and the position of two elements on the periodic table to determine the type of dominant bonding that occurs; ionic, polar.

Bonding. Chemical Bonding Types 1)Ionic 2)Covalent Polar Nonpolar 3)Metallic.

Chapter 6 Chemical Bonds. Chemical Bonds- the mutual attraction between the nuclei & valence electrons of different atoms that holds atoms together –Bonding.

Chapter 6 Chemical Bonds. Terms: Molecule- a neutral group of atoms held together by covalent bonds Molecular Compound- compound made of molecules Chemical.

Chapter 6: Chemical Bonding

I. Introduction to Bonding

Polarity within a Molecule

Types of Chemical Bonds

Bonding Ionic bond (formula units) Between metal and a nonmetal

Bonding Ionic bond (formula units) Between metal and a nonmetal

4-1 Introduction to Chem Bonding

BONDING Unit 6.

Unit 7: Bonding.

Chapter 6 – Modern Chemistry

Ionic, Metallic, & Polar Covalent Bonds

Into to chemical bonding

Warm-up For the following molecules, draw the Lewis diagram, determine the shape, and decide if it’s polar or non-polar. H2Se CO2 CF4 CH2F2.

6-1 Introduction to Chem Bonding

Molecular Structure and Shape

Characteristics of Chemical Bonds

Chemical Bonding.

Covalent Bonds Electrons are shared.

Covalent Bonding In nature, only the noble gas elements exist as uncombined atoms. They are monoatomic - consist of single atoms. All other elements need.

Warm Up What does VSEPR stand for?

Presentation transcript:

Crux of the Matter Unit 4 Chapters 7 and 8

Ionic Compounds A transfer of electrons creates a strong bond Occurs between a metal and a nonmetal or a metal and a polyatomic ion- held together by electrostatic force Compounds form in the simplest whole number ratios Creates true ions- cation (+) and anion (-) All ionic compounds are polar and called a formula unit Alkali and alkaline metal compounds combined with halogens are called salts

Properties of Ionic Compounds Compounds are solids at room temperature Crystalline solids (made of ions) 6 basic shapes High melting and boiling points – due to the lattice energy- smaller the ions involved the stronger the bonds Conduct electricity when melted or dissolved in water- electrolytes

Properties Continued Many soluble in water ( the universal polar solvent) but not in nonpolar liquid The formation of ionic compounds is always exothermic

Criss Cross

Naming ionic compounds

Lewis Dot Diagrams of Ionic Compounds

Covalent Compounds Created from sharing electrons Occurs between a nonmetal and a nonmetal or a nonmetal and a polyatomic ion Covalent compounds can either be polar or nonpolar Covalent compounds are called molecules Formulas are in whole number ratios, but do not need to be simplified There can be single, double and triple bonds Diatomic elements-OHNoHalogens

Properties of covalent compounds Bonds have different lengths- the shorter the bond the more energy required to break it Triple bonds are stronger than double bonds, and double bonds are stronger than single bonds Compounds are usually gases or liquids, some however can be solids Low melting and boiling points than ionic compounds Poor electrical conductors in all phases Compounds are either polar or nonpolar- to dissolve, use the rule “like dissolves like”

A molecule’s shape

Lewis Dot Diagrams and Structural Diagrams

Total Pairs Electrons Shared Pairs Unshared Pairs General Shape 4 tetrahedral 3 1 pyramidal 2 bent linear trigonal planar

Determining a molecule’s shape

Hybridization

Determining the polarity of a molecule

Naming Molecules

Naming Acids

Resonance Structures occur when molecules can arrange themselves to form bonds in different areas yet still obey the octect rule.

Metallic Bonds occur because the metals’ nuclei becomes surrounded by a sea of electron This gives metals their physical properties of malleability and ductility

Dipole bonds- created from equal but opposite charges London dispersion forces-weak intermolecular forces that occur between nonpolar molecules and is caused by the movement of electrons Hydrogen Bonds-occur between hydrogen and a higher electronegative element (O,N, halogens)