Lewis Dot Structures of Atoms and Ions

Similar documents
Lewis Dot Structures of Atoms and Ions

Unit 3 Study Guide: Electron Configuration & The Periodic Table

Bonding Practice Problems

5.4 Trends in the Periodic Table

Chapter 5 TEST: The Periodic Table name

2. Which one of the ions below possesses a noble gas configuration? A) Fe 3+ B) Sn 2+ C) Ni 2+ D) Ti 4+ E) Cr 3+

Name Class Date. What is ionic bonding? What happens to atoms that gain or lose electrons? What kinds of solids are formed from ionic bonds?

PROTONS AND ELECTRONS

SCPS Chemistry Worksheet Periodicity A. Periodic table 1. Which are metals? Circle your answers: C, Na, F, Cs, Ba, Ni

B) atomic number C) both the solid and the liquid phase D) Au C) Sn, Si, C A) metal C) O, S, Se C) In D) tin D) methane D) bismuth B) Group 2 metal

In the box below, draw the Lewis electron-dot structure for the compound formed from magnesium and oxygen. [Include any charges or partial charges.

Untitled Document. 1. Which of the following best describes an atom? 4. Which statement best describes the density of an atom s nucleus?

7.4. Using the Bohr Theory KNOW? Using the Bohr Theory to Describe Atoms and Ions

Chapter 6 Assessment. Name: Class: Date: ID: A. Multiple Choice Identify the choice that best completes the statement or answers the question.

Ionic and Metallic Bonding

Chapter Test. Teacher Notes and Answers 5 The Periodic Law TEST A 1. b 2. d 3. b 4. b 5. d 6. a 7. b 8. b 9. b 10. a 11. c 12. a.

Which substance contains positive ions immersed in a sea of mobile electrons? A) O2(s) B) Cu(s) C) CuO(s) D) SiO2(s)

The Periodic Table: Periodic trends

Electron Configurations, Isoelectronic Elements, & Ionization Reactions. Chemistry 11

19.1 Bonding and Molecules

ANSWER KEY. Energy Levels, Electrons and IONIC Bonding It s all about the Give and Take!

Unit 2 Periodic Behavior and Ionic Bonding

Periodic Table Questions

3. What would you predict for the intensity and binding energy for the 3p orbital for that of sulfur?

Exam 2 Chemistry 65 Summer Score:

Chapter 7 Periodic Properties of the Elements

Electrons in Atoms & Periodic Table Chapter 13 & 14 Assignment & Problem Set

Test Bank - Chapter 4 Multiple Choice

ATOMS A T O M S, I S O T O P E S, A N D I O N S. The Academic Support Daytona State College (Science 120, Page 1 of 39)

Lewis Dot Notation Ionic Bonds Covalent Bonds Polar Covalent Bonds Lewis Dot Notation Revisited Resonance

Periodic Table. 1. In the modern Periodic Table, the elements are arranged in order of increasing. A. atomic number B. mass number

Unit 3.2: The Periodic Table and Periodic Trends Notes

Periodic Table, Valency and Formula

TRENDS IN THE PERIODIC TABLE

6.5 Periodic Variations in Element Properties

Bonds. Bond Length. Forces that hold groups of atoms together and make them function as a unit. Bond Energy. Chapter 8. Bonding: General Concepts

Naming and Writing Formulas for Ionic Compounds Using IUPAC Rules

List the 3 main types of subatomic particles and indicate the mass and electrical charge of each.

CHEMISTRY BONDING REVIEW

Summer Holidays Questions

Chapter 5 Periodic Table. Dmitri Mendeleev: Russian Chemist credited with the discovery of the periodic table.

Chapter 8 Concepts of Chemical Bonding

Molecular Models in Biology

2. John Dalton did his research work in which of the following countries? a. France b. Greece c. Russia d. England

Electrons In Atoms Mr. O Brien (SFHS) Chapter 5 Standard 1D

Ionic and Covalent Bonds

Chapter 2 The Chemical Context of Life

Look at a periodic table to answer the following questions:

Chemistry: The Periodic Table and Periodicity

******* KEY ******* Atomic Structure & Periodic Table Test Study Guide

All about Chemical Bonding Ionic

AP CHEMISTRY 2007 SCORING GUIDELINES (Form B)

Sample Exercise 8.1 Magnitudes of Lattice Energies

Chapter 8 Basic Concepts of the Chemical Bonding

Ions & Their Charges Worksheet

Elements in the periodic table are indicated by SYMBOLS. To the left of the symbol we find the atomic mass (A) at the upper corner, and the atomic num

Find a pair of elements in the periodic table with atomic numbers less than 20 that are an exception to the original periodic law.

WRITING CHEMICAL FORMULA

Elements, Atoms & Ions

SUGGESTION ANSWER SCHEME CHAPTER 8: THERMOCHEMISTRY. 1 (a) Use the data in the table below to answer the following questions:

Candidate Style Answer

Sample Exercise 8.1 Magnitudes of Lattice Energies

Section 11.3 Atomic Orbitals Objectives

Trends of the Periodic Table Diary

Worksheet 14 - Lewis structures. 1. Complete the Lewis dot symbols for the oxygen atoms below

(1) e.g. H hydrogen that has lost 1 electron c. anion - negatively charged atoms that gain electrons (1) e.g. HCO 3 bicarbonate anion

Horizontal Rows are called Periods. Elements in the same period have the same number of energy levels for ground state electron configurations.

Success criteria You should be able to write the correct formula for any ionic compound

Part I: Principal Energy Levels and Sublevels

19.2 Chemical Formulas

Chemistry Assessment Unit AS 1

Questions on Chapter 8 Basic Concepts of Chemical Bonding

REVIEW QUESTIONS Chapter 8

9/13/2013. However, Dalton thought that an atom was just a tiny sphere with no internal parts. This is sometimes referred to as the cannonball model.

Name period AP chemistry Unit 2 worksheet Practice problems

20.2 Chemical Equations

Chapter 2 Atoms, Molecules, and Ions

Unit 1 Chemical Changes and Structure Revision Notes

Chapter 3, Elements, Atoms, Ions, and the Periodic Table


47374_04_p25-32.qxd 2/9/07 7:50 AM Page Atoms and Elements

Type of Chemical Bonds

AP Chemistry A. Allan Chapter 8 Notes - Bonding: General Concepts

The Advanced Placement Examination in Chemistry. Part I Multiple Choice Questions Part II Free Response Questions Selected Questions from1970 to 2010

Topic 4 National Chemistry Summary Notes. Formulae, Equations, Balancing Equations and The Mole

5. Structure, Geometry, and Polarity of Molecules

Chemistry Diagnostic Questions

UNIT 2 PRACTICE EXAM (Part 1: General Chemistry)

THE PERIODIC TABLE O F T H E E L E M E N T S. The Academic Support Daytona State College (Science 117, Page 1 of 27)

Theme 3: Bonding and Molecular Structure. (Chapter 8)

Chapter 2: The Chemical Context of Life

Chapter 4: Structure and Properties of Ionic and Covalent Compounds

CHAPTER 6 Chemical Bonding

Chemistry CP Unit 2 Atomic Structure and Electron Configuration. Learning Targets (Your exam at the end of Unit 2 will assess the following:)

CST Practice Test. Multiple Choice Questions

Chem final review sheet with answers

Question 4.2: Write Lewis dot symbols for atoms of the following elements: Mg, Na, B, O, N, Br.

A mutual electrical attraction between the nuclei and valence electrons of different atoms that binds the atoms together is called a(n)

LEWIS DIAGRAMS. by DR. STEPHEN THOMPSON MR. JOE STALEY

Copyrighted by Gabriel Tang B.Ed., B.Sc.

Transcription:

Lewis Dot Structures of Atoms and Ions Why? The chemical properties of an element are based on the number of electrons in the outer shell of its atoms. We use Lewis dot structures to map these valence electrons in order to identify stable electron configurations. Most atoms tend to lose or gain electrons in order to achieve noble gas stability. For example, the metal sodium will react violently with the gas chlorine, but once the elements form the compound sodium chloride (table salt) they are very stable due to the stable electron configuration. Objective Task Use Lewis dot structures to represent the valence shells of metal and nonmetal atoms and ions. Watch the video clip at: https://www.youtube.com/watch?v=afrldab1_e8 Key Questions 1. What is the product of sodium metal reacting with chlorine gas? 2. Is energy released or absorbed in the reaction? 3. Is the reaction product (sodium chloride) more or less stable than the reactants (sodium metal and chlorine gas)? Explain. Model: Drawing Lewis Dot Structures for Atoms and Ions A. Lewis dot structure for an atom of chlorine is The number of valence electrons for an atom is the number of electrons in the outer energy level (shell) of the atom. Chlorine s electron configuration is 2-8-7; therefore it has seven valence electrons and needs to have seven dots drawn around its symbol.

B. Lewis dot structure for a chloride ion is Chlorine needs an additional electron to attain the stable noble gas configuration of 8 valence electrons. Since chlorine is a nonmetal, it has relatively high values for electronegativity and ionization energy. This means that it will gain electrons until it achieves a stable octet. When chlorine becomes an ion we add one more dot to the atom s diagram, and put in the resulting charge of -1. The ion has 17 protons in the nucleus, with a total of 18 electrons, giving it a net charge of -1. C. Lewis dot structure for an atom of sodium is Sodium has an electron configuration of 2-8-1, therefore it has one valence electron, and needs one dot. D. Lewis dot structure for a sodium ion Since sodium is a metal, it has relatively low values for ionization energy and electronegativity. This means that sodium loses an electron to achieve the stable noble gas configuration of 8 valence electrons. We must take away 1 dot from the dot diagram of the sodium atom and put in the resulting charge of +1. The ion has 11 protons in the nucleus, but only 10 electrons remain, giving a net charge of +1.

Review Concepts 1. What is a valence electron? 2. How can you determine the number of valence electrons in an atom? Key questions 4. How many valence electrons does a chloride ion have? 5. In general terms, what is the difference between an atom and an ion? 6. In general, how do metals form ions to achieve the stable noble gas configuration? 7. In general, how do nonmetals form ions to achieve the stable noble gas configuration? 8. What will happen when metals and nonmetals come into contact with each other? 9. Based on the number of valence electrons for each element, why don't elements in group 18 readily form compounds with other elements.

Exercises 1. Draw the dot diagram for an atom of potassium. 2. Draw the dot diagram for an atom of bromine. 3. In the compound potassium bromide, determine the charge on the potassium ion and the charge on the bromide ion. 4. Draw the dot diagrams for calcium and oxygen. 5. Based on the dot diagram for the atoms in Exercise 4, identify what you expect the charges on calcium ions and oxide ions to be when they form compounds. Explain your answer. 6. Draw the dot diagram for an atom of carbon. 7. Identify how carbon can attain the stable noble gas configuration of 8 electrons. 8. Indicate whether the following species have a stable noble gas configuration. Rb Ar C -4 Ca +2 S Cl -1 Fr +1 O -2

Problems: 1. Using Lewis dot diagrams, show how some number of atoms of magnesium and atoms of fluorine can transfer electrons to form ions of each element with stable octets. Be sure to include the resulting charges of the ions. Circle the part of your diagram that shows the formation of one formula unit of magnesium fluoride. 2. Draw a diagram to show how at least 3 magnesium ions and at least 3 fluoride ions might be arranged in space to form the solid salt magnesium fluoride. 3. What is the force of attraction that holds the magnesium and fluoride ions together? Would you expect the ions in a sample of magnesium fluoride to have a strong or a weak attraction for each other? Explain your answer

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information