At the end of this lesson, students should be able to :
|
|
- Sharyl Bryant
- 5 years ago
- Views:
Transcription
1 At the end of this lesson, students should be able to : (a) Explain Valence Shell Electron Pair Repulsion theory (VSEPR) (b) Draw the basic molecular shapes: linear, planar, tetrahedral, and octahedral. (c) Predict and explain the shapes of molecule and bond angles in a given species.
2 .. :F.. - N - F:.. :F:.... Lewis structure No. of e surrounding a Assumption: e pairs/bonding pair in the valence shell repel one another VSEPR!! Study of molecular geometry Gives the position of all atoms
3 - The 3D arrangement of atoms in a molecule. - affects physical and chemical properties. - predicted by using Valence Shell Electron Pair Repulsion (VSEPR) model. - The study of molecular geometry states The valence electron pairs surrounding a repel one another. Thus, the orbital containing those electron pairs are oriented to be as far apart as possible.
4 Divide molecules into 2 categories: Central atom has No Lone Pairs.... O = C = O.... Central atom has 1 Lone Pairs : F - N - F :.... : F :..
5 BASIC MOLECULAR SHAPE Linear Trigonal Planar Tetrahedral Trigonal Octahedral
6 Class # of atoms bonded to # lone pairs on Arrangement of electron pairs Molecular Geometry AB linear linear B B
7 Bond angle = 180 Cl Be Cl Atoms arranged in a straight line 2 no atoms lone pairs bonded to atom Eg: BeCl 2, HgCl 2
8 VSEPR Class # of atoms bonded to # lone pairs on Arrangement of electron pairs Molecular Geometry AB linear linear AB planar planar
9 Bond angle = 120 Central atom has 3 terminal atoms 120 Eg: BF 3
10 VSEPR Class # of atoms bonded to # lone pairs on Arrangement of electron pairs Molecular Geometry AB linear linear AB planar planar AB tetrahedral tetrahedral
11 Eg: CH 4 Bond angle = Central atom has 4 terminal atoms
12 VSEPR Class # of atoms bonded to # lone pairs on Arrangement of electron pairs Molecular Geometry AB linear linear AB planar planar AB tetrahedral tetrahedral AB 5 5 0
13 Eg: PCl 5 Bond angle = 90, 120 Central atom has 5 terminal atoms
14 VSEPR Class # of atoms bonded to # lone pairs on Arrangement of electron pairs Molecular Geometry AB linear linear AB planar planar AB tetrahedral tetrahedral AB AB octahedral octahedral
15 Eg: XeF 6 Bond angle = 90 Central atom has 6 terminal atoms
16 -Geometry of molecule is more complicated if the has both lone pairs and bonding pairs. -3 types of repulsive forces: those between bonding pairs those between lone pairs those between a bonding pair & lone pair
17 bonding-pair vs. bonding pair repulsion lone-pair vs. bonding < < pair repulsion lone-pair vs. lone pair repulsion
18 Class # of atoms bonded to # lone pairs on Arrangement of electron pairs Molecular Geometry AB 3 AB 2 E planar planar planar bent
19 VSEPR Class # of atoms bonded to # lone pairs on Arrangement of electron pairs Molecular Geometry AB tetrahedral tetrahedral AB 3 E 3 1 tetrahedral pyramidal
20 VSEPR Class # of atoms bonded to # lone pairs on Arrangement of electron pairs Molecular Geometry AB tetrahedral tetrahedral AB 3 E 3 1 tetrahedral pyramidal AB 2 E tetrahedral bent H O H
21 VSEPR Class # of atoms bonded to # lone pairs on AB AB 4 E 4 1 Arrangement of electron pairs Molecular Geometry distorted tetrahedron
22 VSEPR Class # of atoms bonded to # lone pairs on AB AB 4 E 4 1 AB 3 E Arrangement of electron pairs Molecular Geometry distorted tetrahedron T-shaped F F Cl F
23 VSEPR Class # of atoms bonded to # lone pairs on AB AB 4 E 4 1 AB 3 E AB 2 E Arrangement of electron pairs Molecular Geometry distorted tetrahedron T-shaped linear I I I
24 VSEPR Class # of atoms bonded to # lone pairs on Arrangement of electron pairs Molecular Geometry AB octahedral octahedral AB 5 E 5 1 octahedral square pyramidal F F F F Br F
25 VSEPR Class # of atoms bonded to # lone pairs on Arrangement of electron pairs Molecular Geometry AB octahedral octahedral AB 5 E 5 1 octahedral AB 4 E octahedral square pyramidal square planar F F Xe F F
26
27
28
29 Predicting Molecular Geometry 1. Draw Lewis structure for molecule. 2. Count number of lone pairs on the and number of atoms bonded to the. 3. Use VSEPR to predict the geometry of the molecule. e.g: What are the molecular geometries of SO 2 and SF 4? O S O F AB 2 E bent F S F F AB 4 E distorted tetrahedron
30 Excercise: Use the VSEPR model to predict the geometry of the following molecules and ions: a)c 2 H 4 b) OF 2 c) AlCl - 4 d) AsH 3
Chemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals Chapter 1
Chemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals Chapter 1 Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. How to get the book of
More informationMolecular Geometry. Valence Shell Electron Pair. What Determines the Shape of a Molecule? Repulsion Theory (VSEPR) Localized Electron Model
Molecular Geometry Learn Shapes you will Because the physical and chemical properties of compounds are tied to their structures, the importance of molecular geometry can not be overstated. Localized Electron
More informationLewis structures show the number and type of bonds between atoms in a molecule or polyatomic ion.
VSEPR & Geometry Lewis structures show the number and type of bonds between atoms in a molecule or polyatomic ion. Lewis structures are not intended to show the 3-dimensional structure (i.e. shape or geometry)
More informationName: Period: Date: What Is VSEPR? Now explore the Compare Two Structures link. Try changing the display to explore different combinations.
Name: Period: Date: What Is VSEPR? Exploring The Valence Shell Electron Pair Repulsion (VSEPR) model. Go to the Purdue University website to explore VSEPR theory. http://www.chem.purdue.edu/gchelp/vsepr/structur2.html
More informationChemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals
Chemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals Chapter 10 Chang & Goldsby Modified by Dr. Juliet Hahn Copyright McGraw-Hill Education. All rights reserved. No reproduction
More informationIntroduction to VSEPR Theory 1
1 Class 8: Introduction to VSEPR Theory Sec 10.2 VSEPR Theory: The Five Basic Shapes Two Electron Groups: Linear Geometry Three Electron Groups: Trigonal Planar Geometry Four Electron Groups: Tetrahedral
More informationExperiment 15. The Valence Shell Electron Pair Repulsion (VSEPR) Theory of Directed Valency: An exercise
Experiment 15 The Valence Shell Electron Pair Repulsion (VSEPR) Theory of Directed Valency: An exercise Attempts to understand and predict the shapes of molecules using either the valencebond theory or
More informationChapter 13: Phenomena
Chapter 13: Phenomena Phenomena: Scientists measured the bond angles of some common molecules. In the pictures below each line represents a bond that contains 2 electrons. If multiple lines are drawn together
More informationCHAPTER TEN MOLECULAR GEOMETRY MOLECULAR GEOMETRY V S E P R CHEMICAL BONDING II: MOLECULAR GEOMETRY AND HYBRIDIZATION OF ATOMIC ORBITALS
CHAPTER TEN CHEMICAL BONDING II: AND HYBRIDIZATION O ATOMIC ORBITALS V S E P R VSEPR Theory In VSEPR theory, multiple bonds behave like a single electron pair Valence shell electron pair repulsion (VSEPR)
More informationMolecular Geometry and Chemical Bonding Theory
Molecular Geometry and Chemical Bonding Theory The Valence -Shell Electron -Pair Repulsion (VSEPR) Model predicts the shapes of the molecules and ions by assuming that the valence shell electron pairs
More informationVSEPR. Valence Shell Electron Pair Repulsion Theory
VSEPR Valence Shell Electron Pair Repulsion Theory Vocabulary: domain = any electron pair or bond (single, double or triple) is considered one domain. bonding pair = shared pair = any electron pair that
More informationChemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals Chapter 10
Chemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals Chapter 10 Linear Trigonal 180 o planar 120 o Tetrahedral 109.5 o Trigonal Bipyramidal 120 and 90 o Octahedral 90 o linear Linear
More informationFill in the chart below to determine the valence electrons of elements 3-10
Chemistry 11 Atomic Theory IV Name: Date: Block: 1. Lewis Diagrams 2. VSEPR Lewis Diagrams Lewis diagrams show the bonding between atoms of a molecule. Only the outermost electrons of an atom (called electrons)
More informationChapter 9 Molecular Geometries. and Bonding Theories
Chapter 9 Molecular Geometries and Bonding Theories Coverage of Chapter 9 9.1 All 9.2 All 9.3 All 9.4 All 9.5 Omit Hybridization Involving d Orbitals 9.6 All 9.7 and 9.8 Omit ALL MOLECULAR SHAPES The shape
More informationChemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals
Chemical Bonding II: and ybridization of Atomic rbitals Chapter 10 Valence shell electron pair repulsion (VSEPR) model: Predict the geometry of the molecule from the electrostatic repulsions between the
More informationShapes of Molecules. Lewis structures are useful but don t allow prediction of the shape of a molecule.
Shapes of Molecules Lewis structures are useful but don t allow prediction of the shape of a molecule. H O H H O H Can use a simple theory based on electron repulsion to predict structure (for non-transition
More informationLesson Plan. Lesson: Shape of Molecules. Aim: To investigate the shapes of molecules and ions. Learning Outcomes :
Lesson Plan Lesson: Shape of Molecules Aim: To investigate the shapes of molecules and ions Learning Outcomes : At the end of the lesson, students will be able to : 1. explain the Valence Shell Electron
More informationCheck Your Solution A comparison with the figures in Figure 4.31 on page 234 of the student textbook confirms the results.
Predicting the Shape of a Molecule (Student textbook page 236) 11. What molecular shape is represented by each of the following VSEPR notations? a. AX 3 b. AX 5 E You need to assign a molecular shape that
More informationChemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals
Chemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals 1 Chemical Bonding II Molecular Geometry (10.1) Dipole Moments (10.2) Valence Bond Theory (10.3) Hybridization of Atomic Orbitals
More informationLESSON 10. Glossary: Molecular Geometry. a quantitative measure of the degree of charge separation in a molecule. Dipole moment
LESSON 10 Glossary: Molecular Geometry Dipole moment Electronegativity Molecular geometry Pi bond Polar covalent bond Sigma bond Valence-shell electronpair repulsion (VSEPR) model a quantitative measure
More informationCovalent Compounds: Bonding Theories and Molecular Structure
CHM 123 Chapter 8 Covalent Compounds: Bonding Theories and Molecular Structure 8.1 Molecular shapes and VSEPR theory VSEPR theory proposes that the geometric arrangement of terminal atoms, or groups of
More information8.3 Bonding Theories > Chapter 8 Covalent Bonding. 8.3 Bonding Theories. 8.1 Molecular Compounds 8.2 The Nature of Covalent Bonding
Chapter 8 Covalent Bonding 8.1 Molecular Compounds 8.2 The Nature of Covalent Bonding 8.3 Bonding Theories 8.4 Polar Bonds and Molecules 1 Molecular Shape What information does a structural formula give
More informationLewis Structure. Lewis Structures & VSEPR. Octet & Duet Rules. Steps for drawing Lewis Structures
Lewis Structure Lewis Structures & VSEPR Lewis Structures shows how the are arranged among the atoms of a molecule There are rules for Lewis Structures that are based on the formation of a Atoms want to
More informationChapter 9 Molecular Geometry. Lewis Theory-VSEPR Valence Bond Theory Molecular Orbital Theory
Chapter 9 Molecular Geometry Lewis Theory-VSEPR Valence Bond Theory Molecular Orbital Theory Sulfanilamide Lewis Structures and the Real 3D-Shape of Molecules Lewis Theory of Molecular Shape and Polarity
More informationChemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals
Chemical Bonding II: and Hybridization of Atomic Orbitals Chapter 10 Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. 1 Valence shell electron pair repulsion (VSEPR)
More information4/25/2017. VSEPR Theory. Two Electron Groups. Shapes of Molecules. Two Electron Groups with Double Bonds. Three Electron Groups.
Chapter 10 Lecture Chapter 10 Bonding and Properties of Solids and Liquids 10.3 Shapes of Molecules and Ions (VSEPR Theory) Learning Goal Predict the three-dimensional structure of a molecule or a polyatomic
More informationLewis Dot Structures for Methane, CH 4 The central C atom is bonded by single bonds (-) to 4 individual H atoms
Chapter 10 (Hill/Petrucci/McCreary/Perry Bonding Theory and Molecular Structure This chapter deals with two additional approaches chemists use to describe chemical bonding: valence-shell electron pair
More informationChemistry and the material world Lecture 3
Chemistry and the material world 123.102 Lecture 3 Electronic bookkeeping we need a way of finding out in which proportions two or more atoms make up a molecule is it CH 3 or CH 4 or CH 5? counting valence
More informationWould you expect SeF6 to be soluble in water? Yes No Explain your answer in terms of the shape and polarity of SeF6.
COLLATED QUESTIONS Lewis structures and shapes (up to six electron pairs about the central atom for molecules and polyatomic ions, including those with multiple bonds), polarity of molecules. 2017:3 (c)
More informationChemical Bonding II. Molecular Geometry Valence Bond Theory Phys./Chem. Properties Quantum Mechanics Sigma & Pi bonds Hybridization MO theory
Chemical Bonding II Molecular Geometry Valence Bond Theory Phys./Chem. Properties Quantum Mechanics Sigma & Pi bonds ybridization MO theory 1 Molecular Geometry 3-D arrangement of atoms 2 VSEPR Valence-shell
More informationVSEPR. Ch10. Valence Shell Electron Pair Repulsion theory allows you to predict molecular shape. Lewis Dot theory extended to 3 dimensions.
Ch10 VSEPR Valence Shell Electron Pair Repulsion theory allows you to predict molecular shape. Lewis Dot theory extended to 3 dimensions. version 1.5 Nick DeMello, PhD. 2007-2016 Valence Shell Electron
More informationEx. 1) F F bond in F = 0 < % covalent, no transfer of electrons
#60 Notes Unit 8: Bonding Ch. Bonding I. Bond Character Bonds are usually combinations of ionic and covalent character. The electronegativity difference is used to determine a bond s character. Electronegativity
More informationStructures, Shapes and Polarity. of Molecules. Level 2 recap: - Polar and non polar bonds - Lewis diagrams - Lone pairs - Shapes - Polarity
Structures, Shapes and Polarity Level 2 recap: - Polar and non polar bonds - Lewis diagrams - Lone pairs - Shapes - Polarity of Molecules Do now: Brainstorm what you know/remember about these L2 concepts
More informationChapter 10 Molecular Geometry and Chemical Bonding Theory. Copyright Cengage Learning. All rights reserved. 10 1
Chapter 10 Molecular Geometry and Chemical Bonding Theory Copyright Cengage Learning. All rights reserved. 10 1 Molecular geometry is the general shape of a molecule, as determined by the relative positions
More informationThe VSEPR Model applied to Steric Numbers 2 through 4. (VSEPR Part 3)
This work is licensed by Shawn Shields under a Creativ e Commons Attribution-NonCommercial-ShareAlike 4.0 International License. The VSPR Model applied to Steric Numbers 2 through 4. (VSPR Part 3) By Shawn
More informationExample: Write the Lewis structure of XeF 4. Example: Write the Lewis structure of I 3-. Example: Select the favored resonance structure of the PO 4
Expanded valence shells (extended octets) more than 8e - around a central atom Extended octets are formed only by atoms with vacant d-orbitals in the valence shell (p-elements from the third or later periods)
More information2011, Robert Ayton. All rights reserved.
Chemical Bonding Outline 1. Lewis Dot Structures 2. Bonds 3. Formal Charges 4. VSEPR (Molecular Geometry and Hybridzation) 5. Common Resonance Structures and Dimerization Review 1. Lewis Dot Structures
More informationEXPERIMENT #13 Lewis Structures and Molecular Geometry
OBJECTIVES: EXPERIMENT #13 s and Draw Lewis structures of atoms, ions, and molecules Build models of linear, trigonal planar tetrahedral, trigonal bipyramidal, and octahedral arrangements of electron pairs
More informationSubtopic 4.2 MOLECULAR SHAPE AND POLARITY
Subtopic 4.2 MOLECULAR SHAPE AND POLARITY 1 LEARNING OUTCOMES (covalent bonding) 1. Draw the Lewis structure of covalent molecules (octet rule such as NH 3, CCl 4, H 2 O, CO 2, N 2 O 4, and exception to
More informationElectron Geometry Hybrid Orbitals
Molecular Shape and Hybridized Orbitals CH2000: Introduction to General Chemistry, Plymouth State University Introduction: In chemistry, the three dimensional shape of a molecule is as important as the
More informationChapter 9. Lewis Theory-VSEPR Valence Bond Theory Molecular Orbital Theory
Chapter 9 Lewis Theory-VSEPR Valence Bond Theory Molecular Orbital Theory Problems with Lewis Theory Lewis theory generally predicts trends in properties, but does not give good numerical predictions.
More informationChemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals
Chemical Bonding II: Molecular Geometry and Hybridization of Atomic Orbitals Chapter 10 Copyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. 1 Valence shell electron
More informationDo now: Brainstorm how you would draw the Lewis diagram for: H 2 O CO 2
Do now: Brainstorm how you would draw the Lewis diagram for: 2 O CO 2 Shapes of molecules C 4 N 3 2 O C 2 O CO 2 Shapes of molecules Shapes of molecules are determined by the number of bonding and non-bonding
More informationMolecular Geometry and Bonding Theories. Molecular Shapes. Molecular Shapes. Chapter 9 Part 2 November 16 th, 2004
Molecular Geometry and Bonding Theories Chapter 9 Part 2 November 16 th, 2004 8 Molecular Shapes When considering the geometry about the central atom, we consider all electrons (lone pairs and bonding
More informationGeneral and Inorganic Chemistry I.
General and Inorganic Chemistry I. Lecture 1 István Szalai Eötvös University István Szalai (Eötvös University) Lecture 1 1 / 29 Outline István Szalai (Eötvös University) Lecture 1 2 / 29 Lewis Formulas
More informationShapes of Molecules and Hybridization
Shapes of Molecules and Hybridization A. Molecular Geometry Lewis structures provide us with the number and types of bonds around a central atom, as well as any NB electron pairs. They do not tell us the
More informationChapter 10 Chemical Bonding II: Molecular Shapes, Valence Bond Theory, and Molecular Orbital Theory
10.1 Artificial Sweeteners: Fooled by Molecular Shape 425 10.2 VSEPR Theory: The Five Basic Shapes 426 10.3 VSEPR Theory: The Effect of Lone Pairs 430 10.4 VSEPR Theory: Predicting Molecular Geometries
More informationHonors Chemistry Unit 6 ( )
Honors Chemistry Unit 6 (2017-2018) Lewis Dot Structures VSEPR Structures 1 We are learning to: 1. Represent compounds with Lewis structures. 2. Apply the VSEPR theory to determine the molecular geometry
More informationAP Chemistry - Problem Drill 15: Lewis Structures and VSEPR Theory
AP Chemistry - Problem Drill 15: Lewis Structures and VSEPR Theory No. 1 of 10 1. Which shape would have sp 3 hybridization? (A) Linear (B) Bent (C) Tetrahedron (D) Trigonal planar (E) Octahedron C. Correct.
More informationChapter 4. Molecular Structure and Orbitals
Chapter 4 Molecular Structure and Orbitals Chapter 4 Table of Contents (4.1) (4.2) (4.3) (4.4) (4.5) (4.6) (4.7) Molecular structure: The VSEPR model Bond polarity and dipole moments Hybridization and
More informationCHEMICAL BONDING. Chemical Bonds. Ionic Bonding. Lewis Symbols
CHEMICAL BONDING Chemical Bonds Lewis Symbols Octet Rule whenever possible, valence electrons in covalent compounds distribute so that each main-group element is surrounded by 8 electrons (except hydrogen
More informationMOLECULAR MODELS OBJECTIVES
MOLECULAR MODELS OBJECTIVES 1. To learn to draw Lewis structures for common compounds 2. To identify electron pairs as bonding pairs or lone pairs 3. To use electron pair repulsion theory to predict electronic
More informationChapters 8 and 9. Octet Rule Breakers Shapes
Chapters 8 and 9 Octet Rule Breakers Shapes Bond Energies Bond Energy (review): The energy needed to break one mole of covalent bonds in the gas phase Breaking bonds consumes energy; forming bonds releases
More informationMolecular Geometry & Polarity
Molecular Geometry & Polarity Learn Shapes you will Because the physical and chemical properties of compounds are tied to their structures, the importance of molecular geometry can not be overstated. Localized
More informationElectron Geometry Hybrid Orbitals
Molecular Shape and Hybridized Orbitals CH2000: Introduction to General Chemistry, Plymouth State University, Fall 2014 Introduction: In chemistry, the three dimensional shape of a molecule is as important
More informationMolecular Geometry. Objectives N H H. The objectives of this laboratory are to:
Objectives The objectives of this laboratory are to: Molecular Geometry Write Lewis structure representations of the bonding and valence electrons in molecules. Use the VSEPR model to predict the molecular
More informationMolecular shapes. Balls and sticks
Molecular shapes Balls and sticks Learning objectives Apply VSEPR to predict electronic geometry and shapes of simple molecules Determine molecule shape from electronic geometry Distinguish between polar
More informationLewis Structure and Electron Dot Models
Lewis Structure and Electron Dot Models The Lewis Structure is a method of displaying the electrons present in any given atom or compound. Steps: 1. Make a skeleton structure 2. Count all e- available
More information(A) 1 bonding pair (B) 1 bonding pair and 1 lone pair (C) 2 bonding pairs (D) 2 bonding pairs and 2 lone pairs
AP Chemistry - Problem Drill 13: Lewis Structures and VSPER No. 1 of 10 1. Lewis structure is used to model covalent bonds of a molecule or ion. Covalent bonds are a type of chemical bonding formed by
More informationValence Shell Electron Pair Repulsion Model
Valence Shell Electron Pair Repulsion Model Why? Molecules adopt a shape that minimizes their energy. In most cases simply considering the repulsive energy of electron pairs is sufficient to predict molecular
More informationCHM151LL: VSEPR and Molecular Geometry Tables
CHM151LL: VSEPR and Molecular Geometry Tables VSEPR Model VALENCE-SHELL ELECTRON-PAIR REPULSION (VSEPR) MODEL Lewis structures show the two-dimensional distribution of atoms and electrons. The molecular
More informationSECTION II: BUILDING MODELS
SECTION II: BUILDING MODELS Lesson 9 New Smells, New Ideas Lesson 10 Two s Company Lesson 11 Let s Build It Lesson 12 What Shape Is That Smell? Lesson 13 Sorting It Out Lesson 14 How Does the Nose Know?
More informationVSEPR Theory. Chemistry Warm-up: 1. Pick up a set of the skeleton notes from the first lab table.
Chemistry Warm-up: 1. Pick up a set of the skeleton notes from the first lab table. 2. Complete the words of the week assignment. You need to have answers for Tuesday, Thursday and today. Today s : Draw
More informationValence Shell Electron Pair repulsion
Molecular Geometry Valence Shell Electron Pair repulsion The valence shell electron pair repulsion model (VSEPR model) assumes that electron pairs repel one another. (VSEPR) model gives helps determine
More informationLecture B2 VSEPR Theory
Lecture B2 VSEPR Theory Covalent Bond Theories 1. VSEPR (valence shell electron pair repulsion model). A set of empirical rules for predicting a molecular geometry using, as input, a correct Lewis Dot
More informationB. (i), (iii), and (v) C. (iv) D. (i), (ii), (iii), and (v) E. (i), (iii), (iv), and (v) Answer: B. SO 3, and NO 3 - both have 24 VE and have Lewis
SCCH 161 Homework 3 1. Give the number of lone pairs around the central atom and the molecular geometry of CBr 4. Answer: Carbon has 4 valence electrons and bonds to four bromine atoms (each has 7 VE s).
More informationCHAPTER 8. Molecular Structure & Covalent Bonding Theories
CAPTER 8 Molecular Structure & Covalent Bonding Theories 1 Chapter Goals 1. A Preview of the Chapter 2. Valence Shell Electron Pair Repulsion (VSEPR) Theory 3. Polar Molecules:The Influence of Molecular
More informationMolecular Geometry. Dr. Williamson s Molecular Geometry Notes. VSEPR: Definition of Terms. Dr. V.M. Williamson Texas A & M University Student Version
Molecular Geometry Dr. V.M. Williamson Texas A & M University Student Version Valence Shell Electron Pair Repulsion- VSEPR 1. Valence e- to some extent 2. Electron pairs move as far away as possible to
More informationMolecular Geometry. Dr. Williamson s Molecular Geometry Notes. VSEPR: Definition of Terms. VSEPR: Electronic Geometries VSEPR
Molecular Geometry Dr. V.M. Williamson Texas A & M University Student Version Valence Shell Electron Pair Repulsion- VSEPR 1. Valence e- to some extent 2. Electron pairs move as far away as possible to
More informationChapter 10 Shapes of Molecules. Dr. Sapna Gupta
Chapter 10 Shapes of Molecules Dr. Sapna Gupta Shapes of Molecules - Importance All molecules have a 3D orientations; even the diatomic ones because atoms have a volume. In case of tri atomic or polyatomic
More information4.2.7 & Shapes, and bond angles for molecules with two, three and four negative charge centers
4.2.7 & 4.2.8 Shapes, and bond angles for molecules with two, three and four negative charge centers The shape of a molecule has an important part to play in determining its chemical (e.g. reactivity and
More informationChemistry 212 MOLECULAR STRUCTURES AND GEOMETRIES
Chemistry 212 MOLECULAR STRUCTURES AND GEOMETRIES LEARNING OBJECTIVES To build models of selected molecules using VSEPR theory. To illustrate patterns of molecular shapes. BACKGROUND The shapes exhibited
More informationCHEMISTRY. Chapter 10 Theories of Bonding and Structure. The Molecular Nature of Matter. Jespersen Brady Hyslop SIXTH EDITION
CHEMISTRY The Molecular Nature of Matter SIXTH EDITION Jespersen Brady Hyslop Chapter 10 Theories of Bonding and Structure Copyright 2012 by John Wiley & Sons, Inc. Molecular Structures Molecules containing
More informationAdapted from CHM 130 Maricopa County, AZ Molecular Geometry and Lewis Dot Formulas Introduction
Adapted from CHM 130 Maricopa County, AZ Molecular Geometry and Lewis Dot Formulas Introduction A chemical bond is an intramolecular (within the molecule) force holding two or more atoms together. Covalent
More informationVSEPR Theory. Shapes of Molecules. Molecular Structure or Molecular Geometry
VSEPR Theory VSEPR Theory Shapes of Molecules Molecular Structure or Molecular Geometry The 3-dimensional arrangement of the atoms that make-up a molecule. Determines several properties of a substance,
More informationMolecular Geometry and Bonding Theories. Chapter 9
Molecular Geometry and Bonding Theories Chapter 9 Molecular Shapes CCl 4 Lewis structures give atomic connectivity; The shape of a molecule is determined by its bond angles VSEPR Model Valence Shell Electron
More informationLocalized Electron Model
Localized Electron Model Models for Chemical Bonding Localized electron model (Valence bond model) Molecular orbital model Localized Electron Model Useful for explaining the structure of molecules especially
More informationOrganic Chemistry. Review Information for Unit 1. VSEPR Hybrid Orbitals Polar Molecules
rganic hemistry Review Information for Unit 1 VSEPR ybrid rbitals Polar Molecules VSEPR The valence shell electron pair repulsion model (VSEPR) can be used to predict the geometry around a particular atom
More informationAnnouncements. 10pm Room assignments for Exam III and TA Exam Review Sessions are posted on website. Look under Exam Info link
Announcements 1. Exam #3: Thursday, Dec. 6 th, 7:00-8:15pm (Conflict: 5:15-6:30pm) No calculators allowed 2. Activity 3: Making Models of Molecules lab write-up due tomorrow in discussion 3. Lon-capa HW
More informationExperiment 21 Lewis structures and VSEPR Theory
Experiment 21 Lewis structures and VSEPR Theory Introduction 1. Lewis Structures and Formal Charge LG.N. Lewis, at the University of California at Berkeley devised a simple way to understand the nature
More informationChapter 9. Molecular Geometry and Bonding Theories
9.1 Molecular Shapes Read Sec. 9.1 and 9.2, then complete the Sample and Practice Exercises in these sections. Sample Exercise 9.1 (p. 347) Use the VSEPR model to predict the molecular geometries of a)
More informationIllinois Central College CHEMISTRY 130 Laboratory Section: To predict the shapes of molecules based on their Lewis Structures.
Exercise 12 Page 1 Illinois Central College CEMISTRY 130 Laboratory Section: Molecular Structure Name: Objectives To predict the shapes of molecules based on their Lewis Structures. Background The Valence
More informationChapter 9. Chemical Bonding II: Molecular Geometry and Bonding Theories
Chapter 9 Chemical Bonding II: Molecular Geometry and Bonding Theories Topics Molecular Geometry Molecular Geometry and Polarity Valence Bond Theory Hybridization of Atomic Orbitals Hybridization in Molecules
More informationLecture 17 - Covalent Bonding. Lecture 17 - VSEPR and Molecular Shape. Lecture 17 - Introduction. Lecture 17 - VSEPR and Molecular Shape
Chem 103, Section F0F Unit VI - Compounds Part II: Covalent Compounds Lecture 17 Using the Valence-Shell Electron-Pair Repulsion (VSEPR) Theory to predict molecular shapes Molecular shape and polarity
More informationCh 13: Covalent Bonding
Ch 13: Covalent Bonding Section 13: Valence-Shell Electron-Pair Repulsion 1. Recall the rules for drawing Lewis dot structures 2. Remember the special situations: - Resonance structures - ormal charges
More informationPractice Worksheet for Lewis Structures (Mahaffy Ch )
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
More informationChemical Bonding. Types of Bonds. Ionic Bonding. Resonance Structures. Molecular Geometries. VSEPR Basic Shapes 3-D Notation Hybridization (Lab)
Chemical Bonding Types of Bonds Ionic Bonding Lewis Structures Covalent Bonding Resonance Structures Octet Rule Polar Molecules Molecular Geometries VSEPR Basic Shapes 3-D Notation Hybridization (Lab)
More informationValence Shell Electron Pair Repulsion Model
Activity 22 Valence hell Electron Pair Repulsion Model Why? Molecules adopt a shape that minimizes their energy. In many cases it is possible to predict the geometry of a molecule simply by considering
More informationValence-Shell Electron-Pair Repulsion Theory (VSEPR)
; Set 09- Molecular Geometry All course materials, including lectures, class notes, quizzes, exams, handouts, presentations, and other materials provided to students for this course are protected intellectual
More informationCHM2045 F13--Exam # MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.
CHM2045 F13--Exam #2 2013.10.18 MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question. 1) A valid Lewis structure of cannot be drawn without violating the
More informationChemical Bonding and Molecular Models
25 Chemical Bonding and Molecular Models A chemical bond is a force that holds groups of two or more atoms together and makes them function as a unit. Bonding involves only the valence (outer shell) electrons
More informationChapter 6. The Chemical Bond
Chapter 6 The Chemical Bond Some questions Why do noble gases rarely bond to other elements? How does this relate to why the atoms of other elements do form bonds? Why do certain elements combine to form
More informationbond energy- energy required to break a chemical bond -We can measure bond energy to determine strength of interaction
bond energy- energy required to break a chemical bond -We can measure bond energy to determine strength of interaction ionic compound- a metal reacts with a nonmetal Ionic bonds form when an atom that
More informationChapter 9. Molecular Geometry and Bonding Theories
Chapter 9. Molecular Geometry and Bonding Theories PART I Molecular Shapes Lewis structures give atomic connectivity: they tell us which atoms are physically connected to which atoms. The shape of a molecule
More informationLecture Presentation. Chapter 10 Chemical Bonding II: Molecular Shapes, Valence Bond Theory, and Molecular Orbital Theory
Lecture Presentation Chapter 10 Chemical Bonding II: Molecular Shapes, Valence Bond Theory, and Molecular Orbital Theory Predicting Molecular Geometry 1. Draw the Lewis structure. 2. Determine the number
More informationSKILL-BUILDING EXERCISE
4. O and H Solution 1. Carbon has an electronegativity of 2.5, while the value for hydrogen is 2.1. The difference is 0.3, which is rather small. The C H bond is therefore considered nonpolar. 2. Both
More information1. There are paired and unpaired electrons in the Lewis symbol for a phosphorus atom. a. 4, 2 b. 2, 4 c. 2, 3 d. 4, 3 e. 0, 3
Name: Score: 0 / 42 points (0%) [2 open ended questions not graded] C8&9Practice Multiple Choice Identify the choice that best completes the statement or answers the question. 1. There are paired and unpaired
More informationCopyright The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 10. The Shapes of Molecules 10-1
Chapter 10 The Shapes of Molecules 10-1 The Shapes of Molecules 10.1 Depicting Molecules and Ions with Lewis Structures 10.2 Valence-Shell Electron-Pair Repulsion (VSEPR) Theory and Molecular Shape 10.3
More informationReview Chapter 10: Theories of Bonding & Structure. Chemistry: The Molecular Nature of Matter, 6 th edition By Jesperson, Brady, & Hyslop
Review Chapter 10: Theories of Bonding & Structure Chemistry: The Molecular Nature of Matter, 6 th edition By Jesperson, Brady, & Hyslop Chapter 10 Concepts q VESPR theory q Predict molecular geometry
More informationChemical Bonding I: Basic Concepts
Chemical Bonding I: Basic Concepts Chapter 9 Chang & Goldsby Modified by Dr. Hahn Copyright McGraw-Hill Education. All rights reserved. No reproduction or distribution without the prior written consent
More information