Ionic Bonding “Students know atoms combine by exchanging electrons to form ionic compounds, and that salt crystals, such as NaCl, are repeating patterns.

Slides:

Advertisements

Similar presentations

Types of chemical compounds

Advertisements

Chemistry 10/20/11. Brainteaser Thurs. 10/20/11 Write formulas (use the crisscross method to help) for the following compounds (SOME might have polyatomic.

Ionic Compounds and Solutions SNC2D. Electrostatic attraction.

Ionic Bond Chapter 5 Section 2.

8.2: The formation and nature of ionic bonds

Valence Electrons l The electrons responsible for the chemical properties of atoms are those in the outer energy level. l Valence electrons - The electrons.

Ionic Compounds Chapter 8.

Section 6.3 – Ionic Bonding and Ionic Compounds

Ionic Bonding Essential Question: What makes atoms stick together to form compounds and molecules?

1/10/11 Last week’s winners: 4 th period Catalyst: 1. What does an atom have to do to become a cation? 2. What does an atom have to do to become an anion?

Chemical Bonding IONIC BONDS NOV. 21 Ionic Bonds  Characterized by a transfer of electrons  When electrons are transferred between atoms ions are produced.

Ionic Bonding. CA Standards  Students know atoms combine to form molecules by sharing electrons to form covalent or metallic bonds or by exchanging electrons.

By Alex, Matt, Kit and Katie

Chapter 6 Ionic Bonds.

Ionic Bonding Structure and properties of ionic substances.

Introduction to Ionic Compounds. Many ions have a noble gas configuration Ions with a noble gas configuration are stable.

Objectives Know atoms combine to form molecules by sharing electrons to form covalent or metallic bonds or by exchanging electrons to form ionic bonds.

Ionic Bonds and Ionic Compounds

(Section 2.1). Bonding – Electrostatic forces of attraction between pairs of atoms or ions. Compounds – Two or more elements that combine to form new.

1.11 The Formation of Ionic Compounds pp

Bonding – Relationships between Microscopic Structure and Macroscopic Properties.

Chemical Bonding…. How Atoms Combine Bonding involve electrons in the outermost energy level Valence Electrons.

Ions and Ionic Bonding. Atoms that lose their valence electrons to another atom, the valence electrons are transferred from one atom to another. This.

metals: lose valence electrons –form cation –form cation (+ ion) non-metals: gain electrons anion –form anion (- ion)

Warm-Up #32 A. 34 Copy and Answer 1.How many valence electrons does calcium have? 2.If calcium lost two electrons, what would be its charge? 3.How many.

Ionic Bonding and Ionic Compounds

Section 7.2. Forming Ionic Compounds Since ions have charges, ions with opposite charges will be attracted to each other. The force that pulls them together.

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.

Lecture 32 Formation of an Ionic Bond Ozgur Unal 1.

Ionic Bonding & Ionic Compounds. Objectives Explain how ionic compounds are formed Explain the electrical charge of an ionic compound Describe three properties.

Chapter 7 “Ionic and Metallic Bonding”. Section 7.2 Ionic Bonds and Ionic Compounds l OBJECTIVES: –Explain the electrical charge of an ionic compound.

 The goal of every atom is to become stable – most elements have partially filled outer shells and they must bond with another atom to become stable.

We have seen that elements may lose or gain electrons to become isoelectronic with the nearest noble gas. Where do the electrons go when an element loses.

Main Idea: Oppositely charged ions attract each other, forming electrically neutral ionic compounds. Essential Questions: 1. How do ionic bonds form and.

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.

Chapter Seven: Ionic Bonds and Ionic Compounds. Formation of Ionic Compounds Compounds composed of cations and anions are called ionic compounds They.

Topic: Properties of Ionic Bonds Do Now: Get ready for Ionic Quiz.

Chemical Bonding. Basic Atom Information Atoms are neutral Atoms are the smallest particles of an element Elements are arranged on the table by increasing.

(2.2) CHEMICAL COMPOUNDS (p ; ). Chemical Formulas The short form of a chemical compound is called the chemical formula. H2OH2O Symbol for.

CHEMISTRY Ionic Bonds and Compounds. Section 7 Definitions  Ionic Compound  Ionic Bond  Chemical Formula  Formula Unit.

Ionic Bonds Notes 5-2 Key Ideas: 1. How do ions form bonds? 2. How are the formulas and names of ionic compounds written? 3. What are the properties of.

BONDING. WHY ATOMS COMBINE -1 All atoms want a full outer shell Some atoms will lose electrons to empty their shells These become positively charged ions.

Bond. Ionic Bond Unit 4: Ionic Compounds Formation of Ionic Compounds Ionic compounds are composed of cations (metals) and anions (nonmetals). Although.

Types of Chemical Bonds Notes Write everything in green font.

Chapter 5 Section 2 Notes An ion is an atom or group of atoms that has an electric charge. When an atom loses an electron, it loses a negative charge and.

Group-6.  An ion is an atom or group of atoms that have a net electrical charge. An ion is formed when electrons or protons are gained or lost by an.

Chapters 8 and 9 Ionic and Covalent Bonding. Forming Chemical Bonds Chemical Bond  Force that holds 2 atoms together  Attraction between + nucleus and.

Major Bond Types COVALENT e- are shared between 2 atoms

RECAP: Chemical Bond The forces that hold groups of atoms together and make them function as a unit Bonding involves only the valence electrons There are.

Modern Chemistry Chapter 6 Chemical Bonding

attraction formed by transferring e–’s between metal & nonmetal

Ionic Vs Covalent bonds

attraction formed by transferring e–’s between metal & nonmetal

Chapter 5.4, 6.3, 6.4, IONS AND IONIC COMPOUNDS

Ionic Bonding and Salts

Forming Chemical Bonds

Ionic Bond Chapter 5 Section 2.

Ionic Bond Chapter 5 Section 2.

Formation of Ionic Bonds

Warm-Up 10/17/16 Name the difference between an ionic and covalent compound that you learned Friday.

Do Now Why do atoms form chemical bonds, and what happens during the bonding process?

Presentation transcript:

Ionic Bonding “Students know atoms combine by exchanging electrons to form ionic compounds, and that salt crystals, such as NaCl, are repeating patterns of positive and negative ions held together by electrostatic action.” -State Standards 2a and 2c.

How ionic compounds form Positive ions are attracted to negative ions. (Cations and anions attract). Attracted ions are held close together by electrostatic forces (like a balloon rubbed on hair is attracted to the white board) The repeating pattern of positive and negative ions forms a crystal lattice structure.

NaCl Example The cation Na+ forms when Na gives up an electron to Cl. Cl- then attracts the cation and the two oppositely charged ions are held tightly in an ionic bond. Repeating units of NaCl bonds forms a salt crystal.

Ionic Compounds are NOT Molecules Molecules are made by sharing electrons Molecules involve atoms, not ions The atoms in a molecule are touching each other, the electron orbitals are shared Ionic compounds (sometimes called formula units) are made by oppositely charged ions that attract Ions don’t actually touch…they are held close together by electrostatic forces.

Ionic Compounds are typically made by a metal and a nonmetal Metals tend to form positive ions (cations) Nonmetals tend to form negative ions (anions) Group 1 metals and Group 17 nonmetals attract readily (+1 and -1) Group 2 metals and Group 16 nonmetals attract readily (+2 and -2)

Ionic bonds are very strong The ions in a crystal are actually surrounded on all sides by oppositely charged ions. The attraction of the ions gives the crystal a very rigid, brittle structure.

Properties of Ionic Compounds Very high melting and boiling points Solid at room temperature Low electrical conductivity in the solid state, but good electrical conductivity in solution or in the liquid state Hard crystal structure Brittle (can be broken into smaller crystal pieces by force)

What makes a crystal brittle? Opposite charges attract, but like charges repel In a crystal, the ions are arranged so that every positive ion is completely surrounded by negative ions With enough force, you can knock the ions out of alignment, so that ions of the same charge are next to one another. They repel, and the structure fractures.