Molecular Geometry & Polarity

Slides:

Advertisements

Similar presentations

MOLECULAR SHAPE HOW DOES SHAPE AND POLARITY DETERMINE FUNCTION AND PROPERTIES OF MOLECULES?

Advertisements

HOW THE WORLD WORKS, ACCORDING TO CHEMISTRY. ELECTRONEGATIVITY AND POLARITY.

Molecular shapes Balls and sticks. Learning objectives  Apply VSEPR to predict electronic geometry and shapes of simple molecules  Distinguish between.

Chem-To-Go Lesson 18 Unit 4 COVALENT BONDING – POLARITY & INTERMOLECULAR FORCES.

Introduction to Organic Molecules & Functional Groups

Chemistry is both physical and chemical - physical attractive forces 1.Understanding physical structure of substances is very important in understanding.

Structure and Bonding Molecular Orbital Theory Hybridization Isomerization Dipoles and Polarity.

 Water molecule dipole moment.  The polarity of water affects its properties –Causes water to remain liquid at higher temperature –Permits ionic compounds.

Lecture 3111/18/05. Electron Pair Geometries Molecules with only single covalent bonds around central atom. Axial atomsEquatorial atoms.

4.5 Physical Properties of Covalent Molecules. Summary of Bonding Types.

Section 5.5—Intermolecular Forces

Predicting Molecular Polarity  When there are no polar bonds in a molecule, there is no permanent charge difference between one part of the molecule and.

Polarity of Molecules.

Polar Molecular Compounds

Battles over pure water or OIL? Euphrates River Tigris River One substance with hydrate your body, the other will dehydrate (a laxative) Who has the ultimate.

Interparticle Bonding

Major Goals of Chapter 6: 1. Identify the difference between ionic (CH5) & covalent (CH6) substances. 2. Learn the rules for naming covalent substances.

Chapter 14 – Liquids and Solids

Chapter 16 – Solutions Mr.Yeung. Objectives Solutions –Types How some solutions mix and some don’t Polarity Electronegativity.

UNIT IX Lesson #3 Like dissolves like! (Miscibility)

Polarity and Intermolecular Forces

8.5 ELECTRONEGATIVITY AND POLARITY. SUBTOPICS 1. Electronegativity 2. Bond types based on the difference in electronegativity 3. Polarity – in particular.

SOLUTIONS Chapter Nineteen: Solutions  19.1 Water  19.2 Solutions  19.3 Acids, Bases, and pH.

Solutions, Solubility and Polarity! Chapter 7.2 Pp 243 – 254.

2.2 Properties of Water Water’s unique properties allow life to exist on Earth.

Intermolecular Forces Topic 4.4

Covalent Bonds in Molecular Compounds. There are two types of covalent bonding 1. Non-polar bonding with an equal sharing of electrons. 2. Polar bonding.

Covalent Molecules. Lewis Structures only show us the 2-Dimensional shapes. Not the 3-D molecules we see in the real world This 3-D shape is important.

Chemical Bonding and Molecular Structure Chapter 12 Sec

C. Johannesson III. Molecular Polarity (p. 183) Ch. 6 – Molecular Structure.

Chemical Bonding List the three types of bonds List the substances that compose the three types of bonds Draw the Lewis Dot Structure, Molecular Geometry,

Factors That Affect Solubility. The SOLUBILITY of a solution is the maximum quantity of solute that can be dissolved in a certain quantity of solvent.

8.2 Factors That Affect Rate of Dissolving and Solubility

1. Soluble? Why? “Like dissolves Like“ Polar molecule = A molecule in which the bond dipoles present do not cancel each other out and thus results in a.

Biochemistry Continued.  Life could not exist without water.  Some functions of water include:  Control of body temperature  Keeps eyeballs moist.

TOPIC 4: CHEMICAL BONDING & STRUCTURE. ESSENTIAL IDEA The physical properties of molecular substances result from different types of forces between their.

2.2 Properties of Water.

(C) Bonding and Structure. After completing this topic you should be able to : (C) Bonding and Structure Solubility of ionic compounds, polar molecules.

 21.1 Water  21.2 Solutions  21.3 Acids, Bases, and pH.

Chapter 23 Solutions Lesson 4.

Water Basics Polar: part of the molecule is slightly positive… other part slightly negative – Oxygen (-) – Hydrogen (+) Hydrogen Bond: Positive Hydrogen.

1. Define electronegativity. How is electronegativity related to polarity? 2. How would you classify water – ionic or covalent bond?

Water Lab  PURPOSE: To observe how water behaves and infer how life “takes advantage” of those behaviors/properties.  You will perform 8 mini-experiments,

1 Section 8.1The Covalent Bond Section 8.2 Naming Molecules Section 8.3 Molecular Structures Section 8.4 Molecular Shapes (Hybridization and VSEPR model)

Chapter 8 “Covalent Bonding” Part 3 Ball-and-stick model.

Dissolving and Solubility

2.2 Properties of Water KEY CONCEPT Water’s unique properties allow life to exist on Earth.

6.3 Water and Solutions.

UNIT 6 Solution Chemistry.

Reactions in Solution Electrolytes.

6.3 POGIL- properties of water

Lecture Presentation Chapter 9 Solutions Karen C. Timberlake.

Unit 10 – Solutions Lecture 1: Solutions and Solubility

III. Molecular Polarity (p. 183)

Polar vs. Non-Polar Molecules

5.2 Molecular Polarity Obj 2

Polar Molecules Section 3.3.

Molecular Polarity Chemistry.

III. Molecular Polarity (p. 183)

Lesson 4.2 Explaining Solutions SCH 3U.

Class Notes 2-2 Water and Solutions.

III. Molecular Polarity

Molecular shapes Balls and sticks. Learning objectives  Apply VSEPR to predict electronic geometry and shapes of simple molecules  Distinguish between.

Polar Molecules Link to Phet Polar Molecules.

Things we have learned about water

Things we have learned about water

V. Molecular Polarity (p. 183)

III. Molecular Polarity (p. 183)

Electronegativity WALT:

Presentation transcript:

Molecular Geometry & Polarity A. Substance structure will influence physical properties • Lewis dot structure for molecules • Molecular Polarity (polar versus nonpolar)

A. Be able to draw Lewis dot structures B. molecules have ideal or non-ideal geometry C.electronegativity differences determines bond polarity These ideas are described on the next two slides D. Overall Molecular Geometry determines molecular polarity

Symmetric versus Asymmetric Symmetrical arrangement of polar bonds bond polarities cancel Asymmetrical arrangement of polar bonds bond polarities don’t cancel NO Net Dipole Bond Dipoles Cancel These Molecules Have a Net Dipole variable polarity ammonia gas water polar non-polar

Molecular Substances (discrete units) Molecular Geometry and Bond Polarity Ideal geometries show have variable polarity Non-ideal geometries are generally polar NO Net Dipole Bond Dipoles Cancel ideal non-polar ammonia gas water polar These Molecules Have a Net Dipole ideal non-ideal variable polarity polar These Molecules Have a Net Dipole BUT, these ideal geometries here are polar

Draw in bond dipole for each bond

Molecular Polarity Determining the polar nature of molecular substances Evaluating Substance Structure Physical Observations - Common Sense Approach Solubility (solute/solvent interactions) to gauge molecular polarity “Like will dissolve Like” Polar solutes will have highest solubility in polar solvents Nonpolar solutes will have highest solubility in nonpolar solvents Polar solutes will have lowest solubility in nonpolar solvents Nonpolar solutes will have lowest solubility in polar solvents

Molecular substance solubility in water “Like dissolves Like ” to gauge Molecular Polarity Sugar dissolves in water Thus sugar molecules must be polar Methanol CH3OH dissolves in water Thus methanol molecules must be polar Gasoline -(CH 2)- does not dissolve in water Thus gasoline molecules must be NONPOLAR

A gasoline molecule is a hydrocarbon made of repeating –( CH2 )– units is non-polar; NO net dipole hydrocarbons are non-polar A gasoline hydrocarbon All dipoles cancel

Nonpolar does not dissolve Polar methane does not dissolve in water gasoline does not dissolve in water

Polar physically dissolves in Polar opposites attract physical bonding methanol dissolves in water sugar dissolves in water opposites attract physical bond

The highlighted area is an example of hydrogen bonding methanol dissolves in water sugar dissolve in water

“Like dissolves Like” Polar dissolves Polar Vitamin B11 (folic acid) Vitamin C (ascorbic acid) Where ever there are N and O atoms, there are polar areas polar areas Water soluble vitamins

“Like dissolves Like” Non-Polar dissolves Non-Polar Vitamin A, retinol (fat soluble; lipid soluble) triacylglycerine, a non-polar human body fat (lipid) nonpolar areas Vitamins D, E, and K are fat soluble as well What would their overall polarity be?

Predict whether the substance is Polar or Nonpolar sugar C6H12O6 baby oil C20H42 candle wax C40H82 ethanol C2H5OH oxygen O2 iodine I2 polar nonpolar