Practice Worksheet for Lewis Structures (Mahaffy Ch )

Similar documents
Activity Formal Charge and VSEPR Theory for Expanded Octets

Honors Chemistry Unit 6 ( )

Lewis Structure. Lewis Structures & VSEPR. Octet & Duet Rules. Steps for drawing Lewis Structures

2011, Robert Ayton. All rights reserved.

Fill in the chart below to determine the valence electrons of elements 3-10

Structures, Shapes and Polarity. of Molecules. Level 2 recap: - Polar and non polar bonds - Lewis diagrams - Lone pairs - Shapes - Polarity

Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 10. The Shapes of Molecules 10-1

Chapter 9 The Shapes of Molecules Cocaine

Molecular Geometry. Valence Shell Electron Pair. What Determines the Shape of a Molecule? Repulsion Theory (VSEPR) Localized Electron Model

Ex. 1) F F bond in F = 0 < % covalent, no transfer of electrons

4/25/2017. VSEPR Theory. Two Electron Groups. Shapes of Molecules. Two Electron Groups with Double Bonds. Three Electron Groups.

Molecular Geometry & Polarity

Lewis structures show the number and type of bonds between atoms in a molecule or polyatomic ion.

Molecular Geometry and Chemical Bonding Theory

Experiment 15. The Valence Shell Electron Pair Repulsion (VSEPR) Theory of Directed Valency: An exercise

Chemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals

Chapter 13: Phenomena

CHM2045 F13--Exam # MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

Name: Period: Date: What Is VSEPR? Now explore the Compare Two Structures link. Try changing the display to explore different combinations.

CHEMICAL BONDING. Chemical Bonds. Ionic Bonding. Lewis Symbols

VSEPR. Valence Shell Electron Pair Repulsion Theory

General and Inorganic Chemistry I.

CH 222 Chapter Seven Concept Guide

10-1. The Shapes of Molecules, chapter 10

Form J. Test #4 Last Name First Name Zumdahl, Chapters 8 and 9 November 23, 2004

At the end of this lesson, students should be able to :

Name Unit Three MC Practice March 15, 2017

MOLECULAR MODELS OBJECTIVES

Chapter 7. Chemical Bonding I: Basic Concepts

MOLECULAR ORBITAL DIAGRAM KEY

Chemical Bonding. Types of Bonds. Ionic Bonding. Resonance Structures. Molecular Geometries. VSEPR Basic Shapes 3-D Notation Hybridization (Lab)

Chemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals Chapter 10

LESSON 10. Glossary: Molecular Geometry. a quantitative measure of the degree of charge separation in a molecule. Dipole moment

bond energy- energy required to break a chemical bond -We can measure bond energy to determine strength of interaction

Chem 1075 Chapter 12 Chemical Bonding Lecture Outline. Chemical Bond Concept

Chapter 9 Molecular Geometries. and Bonding Theories

COVALENT BONDING CHEMICAL BONDING I: LEWIS MODEL. Chapter 7

Molecular shape is determined by the number of bonds that form around individual atoms.

AP Chemistry- Practice Bonding Questions for Exam

Adapted from CHM 130 Maricopa County, AZ Molecular Geometry and Lewis Dot Formulas Introduction

Molecular Geometry. Objectives N H H. The objectives of this laboratory are to:

CHEMISTRY 112 LECTURE EXAM II Material

Class Period. 4. What distinguishes a polar covalent bond from a nonpolar covalent bond?

Chemistry and the material world Lecture 3

The Shapes of Molecules. Chemistry II

Experiment 21 Lewis structures and VSEPR Theory

LET S FIRST REVIEW IONIC BONDING

CHEM 110 Exam 2 - Practice Test 1 - Solutions

Name AP CHEM / / Chapter 8 Outline Bonding: General Concepts

CHEM1101 Worksheet 6: Lone Pairs and Molecular Geometry

Chapter 9 Molecular Geometry. Lewis Theory-VSEPR Valence Bond Theory Molecular Orbital Theory

EXPERIMENT #13 Lewis Structures and Molecular Geometry

Chemical Bonding AP Chemistry Ms. Grobsky

EXAM II Material. Part I Chemical Bonding I Lewis Theory Chapter 9 pages A. Drawing electron dot structures HOW TO:

(A) 1 bonding pair (B) 1 bonding pair and 1 lone pair (C) 2 bonding pairs (D) 2 bonding pairs and 2 lone pairs

Chemical Bonds. Chapter 6

Focus Learning Targets for Periodic Trends and Bonding (1) Discuss the development of the periodic table by Mendeleev. (2) Locate and state important

Chemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals Chapter 1

B. Draw the best dot structure you can for HNNH, where the atoms are connected as written.

What is a Bond? Chapter 8. Ionic Bonding. Coulomb's Law. What about covalent compounds?

Shapes of Molecules. Lewis structures are useful but don t allow prediction of the shape of a molecule.

Chapters 8 and 9. Octet Rule Breakers Shapes

Chapter 9. Lewis Theory-VSEPR Valence Bond Theory Molecular Orbital Theory

Chemistry 212 MOLECULAR STRUCTURES AND GEOMETRIES

8.1 Types of Chemical Bonds List and define three types of bonding. chapter 8 Bonding General Concepts.notebook. September 10, 2015

I. Multiple Choice Questions (Type-I)

2. Write the electron configuration notation and the electron dot notation for each: (a) Ni atom (b) Ni 2+ ion (c) Ni 3+ ion

Subtopic 4.2 MOLECULAR SHAPE AND POLARITY

Instant download Test bank for Chemistry The Central Science 10th Edition by Brown, LeMay, Bursten CLICK HERE

Group 1 Group 2 Group 3 Group 4 Group 5 Group 6 Group 7 Group 8. Na Mg Al Si P S Cl Ar

CHEMISTRY. Chapter 10 Theories of Bonding and Structure. The Molecular Nature of Matter. Jespersen Brady Hyslop SIXTH EDITION

Chapter 6 Chemistry Review

Chemical Bonding Chapter 8

* one of these choices is not used

Valence Shell Electron Pair repulsion

REVIEW: VALENCE ELECTRONS CHEMICAL BONDS: LEWIS SYMBOLS: CHEMICAL BONDING. What are valence electrons?

Lewis Dot Formulas and Molecular Shapes

Lewis Structures and Molecular Shapes

VSEPR. Ch10. Valence Shell Electron Pair Repulsion theory allows you to predict molecular shape. Lewis Dot theory extended to 3 dimensions.

Chapter 7 Chemical Bonding and Molecular Structure

1. Sodium nitrite is an ionic compound containing a polyatomic ion. Answer the following questions relative to nitrite.

Covalent Compounds: Bonding Theories and Molecular Structure

CHEMICAL BONDING. Valence Electrons. Chapter Ten

CHM2045 S13: Exam # MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

Chapter 10 Molecular Geometry and Chemical Bonding Theory. Copyright Cengage Learning. All rights reserved. 10 1

Chemical Bonding I: Covalent Bonding. How are atoms held together in compounds?

Ch 13: Covalent Bonding

AP CHEMISTRY CHAPTERS 5 & 6 Problem Set #4. (Questions 1-13) Choose the letter that best answers the question or completes the statement.

Chapter 8. Bonding: General Concepts

Test Bank for Introductory Chemistry Essentials 5th Edition by Tro

Helpful Hints Lewis Structures Octet Rule For Lewis structures of covalent compounds least electronegative

Valence Shell Electron Pair Repulsion Model

Chapter 8. Bonding: General Concepts

Lecture B2 VSEPR Theory

Chemical Bonding and Molecular Models

Homework 08 VSEPR. The active ingredient in some oral anesthetics used in sore throat sprays. What is the molar mass of phenol?

PART 3 Chemical Bonds, Valence Bond Method, and Molecular Shapes. Reference: Chapter 9 10 in textbook

Chapter Eight. p328. Bonding: General Concepts

Electron Geometry Hybrid Orbitals

Lewis Structure and Electron Dot Models

Transcription:

Practice Worksheet for Lewis Structures (Mahaffy Ch. 10.1 10.5 ) 1. Main concepts Lewis Structures a. Connectivity b. Bonds & Lone pairs c. Electron Geometry & Molecular Shape d. Resonance Structures Formal Charge (FC) is a charge an atom in the molecule or ion would have if all bonding electrons were shared equally between the bonded atoms. FC= # of valence e 2 1 # of shared e #nonbonding e ) e. Assigning Oxidation number using Lewis Structures i. Oxidation number is 0 for atoms in an element. ii. The sum of all oxidation numbers in a molecule or ion must add up to the total charge. iii. In compounds, alkalis (group 1) have oxidation number +1; alkaline earths (group 2) have oxidation number +2. iv. In compounds, fluorine (F) always has oxidation number 1. Other halogens (Cl ext.) have oxidation number 1, except when bonded to elements that are more electronegative such as fluorine or oxygen, where they can have positive oxidation numbers. v. In compounds, hydrogen has oxidation number +1 (when bonded to elements with higher electronegativity). When bonded to metals hydrogen has oxidation number 1 (when bonded to elements with lower elecronegativity). vi. In compounds, oxygen has oxidation number 2, except when bonded to fluorine, where fluorine's rule takes precedence (in OF 2 oxygen has oxidation number +2), and if there are OO (peroxide) bonds. (in H 2 O 2 or Na 2 O 2 oxygen has oxidation number 1). 2. Useful Ideas to Consider When Drawing Lewis Structures a. Arrange atoms so that the central atom has the lowest electronegativity. b. Determine the number of valence electrons. c. Place one electron pair between bonded atoms to form a single bond. d. Use remaining pairs as lone pairs around terminal atoms (except H) so each atom is surrounded by 8 electrons e. If the central atom has fewer than 8 electrons, move one or more of the lone pairs on a terminal atom into a position intermediate between the center and terminal position to form a multiple bond. f. The octet rule is a useful guideline when drawing Lewis structures g. Carbon forms four bonds (four single bonds; two single bonds and one double bond; or one single bond and one triple bond.) In uncharged species, nitrogen forms three bonds and oxygen two. Hydrogen typically forms only one bond to another atom. h. When multiple bonds are formed, both of the atoms involved are usually one of the following: C, N, O, and S. Oxygen has the ability to form multiple bonds with a variety of elements. Carbon forms many compounds having multiple bonds to another carbon, or to nitrogen or oxygen. i. Nonmetals may form single, double, and triple bonds but never quadruple bonds. j. Always account for single bonds and lone pairs before forming multiple bonds. k. Be alert for the possibility that the molecule or ion you are working on is isoelectronic with a species you have seen before. 1

Example (for CO 2 ) V alence =4(C) +2*6(O) =16 e (total number of valence electrons you have) O ctet = 8(C) +2*8(O) =24 e (total number of electron needed for each atom to be satisfied by an octet rule (8 e each)) Exceptions: H only needs 2 e Be sometimes only contribute 4 e B usually only contribute 6 e O(need) V(have) 24 16 B onds (total number of bonds) = = = 4 bonds 2 2 V B 2 16 4 2 L one pairs (total number of nonbonding electron pairs) = = = 4 lone pairs or 2 2 nonbonding electron pairs (or 8 nonbonding electrons) 1. Choose most stable resonance structure based on Formal Charge for SCN and N2O 2. Consider the following different Lewis structure for OClO [ O Cl O] O Cl O [ ] [ O Cl O ] a. Use the boxes to indicate the formal charge for each atom. b. Circle the least stable Lewis structure. 3. Assign oxidation numbers to each of the atoms in the following molecules: a. PO 4 3 P O b. NaH Na H c. C 2 H 6 C H 2

4. In which of the following species is it necessary to employ an expanded valence shell to represent the Lewis structure: PO4 3, PI3, ICl3, OSCl2, SF4, ClO4? Explain your choices. 5. Only one of the following Lewis structures is correct. Select that one and indicate the errors in the others. a) cyanate ion b) carbide ion c) hypochlorite ion d) nitrogen (II) oxide 6. One of the following ions has a trigonal planar shape: SO3 2, PO4 3, PF6, CO3 2. Which ion is it? Explain. 7. Use VSEPR theory to predict the geometric shapes of the following molecules and ions: (a) N2 (b) HCN (c) NH4 + (d) NO3 (e) NSF. 8. Give the Lewis dot structures, electron pair geometry, and molecular shape of the following molecules. For each atom on each molecule, indicate the formal charge and oxidation number. a. SeCl4 b. I3 c. PSCl3 d. IF4 e. PH2 f. TeF4 2 g. N3 3

h. SeOCl4 i. PH4 + j. NO k. ICl2 l. PCl3 m. PF5 n. ICl3 o. IF5 p. SnCl2 q. NO3 r. BrF3 s. XeF2 t. BF3 9. Below are 6 possible Lewis structure. Not all the structures below are reasonable Lewis structures. In the box to the right of each Lewis structure, write the letter(s) corresponding to all the following that apply. (a) Atom(s) with less than an octet (b) Nonzero formal charge(s) (c) Disallowed Expanded octet 4

molecule #V e Lewis Structure (with Formal Charge on each atom) Steric # e geometry Shape Dipole? SO 2 or NO 2 CCl 4 CH 2 Cl 2 ClO 3 NH 2 CH 2 O 5

PF 5 H 3 PO 4 C 2 N 2 N 3 O 3 NOCl NH 4 + 6

Valence Electron Pairs Steric Number = #of atoms + # of lone pairs attached to the center atom Electron Pair Geometry Number of Bond Pairs (Number of atoms bonded to the center atom) Number of Lone Pairs Molecular Shape Examples 2 Linear(<180 ) 2 0 Linear BeCl2 3 Trigonal Planar 3 0 Trigonal Planar BF3 (<120 ) 3 Trigonal Planar 2 1 Bent SO2 4 Tetrahedral 4 0 Tetrahedral CH4, BF4 (<109.5 ) 4 Tetrahedral 3 1 Trigonal NH3, PF3 Pyramidal 4 Tetrahedral 2 2 Bent H2O, SCl2 5 0 Trigonal PF5 4 1 Seesaw SF4 3 2 Tshaped ClF3 2 3 Linear XeF2 6 Octahedral 6 0 Octahedral SF6 6 Octahedral 5 1 Square ClF5 Pyramidal 6 Octahedral 4 2 Square Planar XeF4 7

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback