Presentation is loading. Please wait.

Presentation is loading. Please wait.

Chapter 2: Organic Compounds: A First Look Common Bonding Situations Hydrogen1 bond Carbon4 bonds (neutral and 8 electrons) Reactive Carbon Species.

Published byJason Conley Modified over 8 years ago

Similar presentations

Presentation on theme: "Chapter 2: Organic Compounds: A First Look Common Bonding Situations Hydrogen1 bond Carbon4 bonds (neutral and 8 electrons) Reactive Carbon Species."— Presentation transcript:

1 Chapter 2: Organic Compounds: A First Look Common Bonding Situations Hydrogen1 bond Carbon4 bonds (neutral and 8 electrons) Reactive Carbon Species

2 Nitrogen3 bonds and one unshared pair of electrons Other relatively stable species

3 Oxygen2 bonds and 2 unshared electron pairs Other relatively stable species hydronium ion

4 Halogens1 bond and 3 unshared electron pairs also 4 unshared pairs and negative charge

5 Phosphorus three bonds and an unshared pair of electrons (like N) also can have more than 8 electrons in its valence shell Sulfurtwo bonds and two unshared electron pairs (like O) also can have more than 8 electrons in its valence shell

6 Bond Strengths and Bond Lengths Bond Dissociation Energy:energy that must be added to break a bond in a homolytic fashion (one electron with each atom)

7 1. Stronger bonds are shorter. 2. C-H, N-H, O-H: 90-110 kcal/mol; 1 (10 -10 m, 100 pm) 3. C-C, C-N, C-O: 65-80 kcal/mol; 1.5 4. Bonds become weaker and longer down a column 5. C=C is stronger and shorter than C-C (but not two times) C=O is very strong and very common

8 Table 2-3, p. 35

9 Physical Properties and Molecular Structure melting point, boiling point, solubility Intermolecular Forces charge interactions larger charges = stronger interaction TypeExample ion-ion very strong ionic bond 188 kcal/mol ion-dipole moderately strong

10 dipole-dipoleweak dipole-induced dipoleweaker instantaneous dipole- induced dipole (London Force) weakes t Together these last three are called van der Waals forces (0.5 – 5 kcal/mol).

11 Hydrogen Bonding Hydrogen bonds are stronger than other dipole-dipole attractions because the small size of H allows less distance between the charges (3 – 8 Kcal/mol).

12 Melting Points increase with stronger intermolecular forces increase with more symmetrical shape (molecules pack better into crystal lattice) compoundmelting point NaCl801 o C ionic compound CH 3 CH 2 CH 3 -190 o C nonpolar CH 3 (CH 2 ) 3 CH 3 -130 o Clarger, more London forces -71 o C more symmetrical -99 o C has polar bond

13 Boiling Points increase with stronger intermolecular forces increase with more surface area (more London forces) (rod shaped) increase with hydrogen bonding compoundboiling point NaCl1413 o C ionic compound CH 3 CH 2 CH 3 -42 o Cnonpolar CH 3 (CH 2 ) 3 CH 3 36 o Clarger, more London forces

14 CH 3 (CH 2 ) 3 CH 3 36 o Clarger, more London forces 10 o C less surface area 76 o C more polar 117 o Chydrogen bonding

15 Table 2-6a, p. 51

16 Table 2-6b, p. 51

Download ppt "Chapter 2: Organic Compounds: A First Look Common Bonding Situations Hydrogen1 bond Carbon4 bonds (neutral and 8 electrons) Reactive Carbon Species."

Similar presentations

The attractions between molecules are not nearly as strong as the intramolecular attractions that hold compounds together. © 2009, Prentice-Hall, Inc.

The attractions between molecules are not nearly as strong as the intramolecular attractions that hold compounds together. © 2009, Prentice-Hall, Inc.
Intermolecular Forces

Intermolecular Forces
© 2009, Prentice-Hall, Inc. States of Matter The fundamental difference between states of matter is the distance between particles.

© 2009, Prentice-Hall, Inc. States of Matter The fundamental difference between states of matter is the distance between particles.
INTERMOLECULAR FORCES. Three types of force can operate between covalent (not ionic) molecules:  Dispersion Forces also known as London Forces as Weak.

INTERMOLECULAR FORCES. Three types of force can operate between covalent (not ionic) molecules:  Dispersion Forces also known as London Forces as Weak.
Unit 7.5 Comparing Intermolecular Forces Teacher: Dr. Van Der Sluys.

Unit 7.5 Comparing Intermolecular Forces Teacher: Dr. Van Der Sluys.
2.4 Intermolecular Forces

2.4 Intermolecular Forces
Shapes and Polarity Vocabulary Polar covalent bond VSEPR model

Shapes and Polarity Vocabulary Polar covalent bond VSEPR model
Sec. 8.5: Electronegativity and Bond Polarity

Sec. 8.5: Electronegativity and Bond Polarity
Electronegativity and Polarity.  Describe how electronegativity is used to determine bond type.  Compare and contrast polar and nonpolar covalent bonds.

Electronegativity and Polarity.  Describe how electronegativity is used to determine bond type.  Compare and contrast polar and nonpolar covalent bonds.
UNIT: BONDING TIER 5 -Determine if a molecule is polar or nonpolar

UNIT: BONDING TIER 5 -Determine if a molecule is polar or nonpolar
Intermolecular Forces

Intermolecular Forces
Dipole-Dipole and Ion-Dipole Interactions By: Katlyn, Christina, Jonathan, Jeet.

Dipole-Dipole and Ion-Dipole Interactions By: Katlyn, Christina, Jonathan, Jeet.
Basic Chemistry Copyright © 2011 Pearson Education, Inc. Chapter 10 Structures of Solids and Liquids 10.4 Attractive Forces between Particles 1.

Basic Chemistry Copyright © 2011 Pearson Education, Inc. Chapter 10 Structures of Solids and Liquids 10.4 Attractive Forces between Particles 1.
Functional Groups The great majority of organic compounds have C—C and C—H bonds. These are strong, non-polar bonds. They provide a non-reactive framework.

Functional Groups The great majority of organic compounds have C—C and C—H bonds. These are strong, non-polar bonds. They provide a non-reactive framework.
Lewis Structures, Molecular Geometry, Polarity, Intermolecular Forces Kelly Franks, Juliet Hurvich, Lauren Cunningham.

Lewis Structures, Molecular Geometry, Polarity, Intermolecular Forces Kelly Franks, Juliet Hurvich, Lauren Cunningham.
Intermolecular Forces Chapter 11.2 Pages 385-392.

Intermolecular Forces Chapter 11.2 Pages
Intramolecular and Intermolecular Forces.  Intramolecular Forces – Molecular Forces found within molecules 1)Ionic Bond (electrons transferred between.

Intramolecular and Intermolecular Forces.  Intramolecular Forces – Molecular Forces found within molecules 1)Ionic Bond (electrons transferred between.
Intermolecular Forces. Introduction Atoms can form stable units called molecules by sharing electrons. Atoms can form stable units called molecules by.

Intermolecular Forces. Introduction Atoms can form stable units called molecules by sharing electrons. Atoms can form stable units called molecules by.
Attractions Between Molecules or Intermolecular Forces (IM Forces) Chapter 8.4.

Attractions Between Molecules or Intermolecular Forces (IM Forces) Chapter 8.4.
The Periodic Table and Chemical Bonding Lesson 4

The Periodic Table and Chemical Bonding Lesson 4

Similar presentations

Ads by Google