Covalent Compounds. Covalent Compound Electrons are shared between 2 different atoms – 1 bond forms between two elements that each share one electron.

Slides:

Advertisements

Similar presentations

Do Now 1.Define electronegativity. 2.What is a bond? 3.What are the THREE types of bonds? 4.What type of bond will form between… Na and Cl?? H and Cl??

Advertisements

Intro to Bonding: Part 2: Covalent Compounds (Type 3 Binary Compounds)

Drawing Lewis Structures Hydrogens are always on the outside.

CHEM 5013 Applied Chemical Principles Chapter Seven Professor Bensley Alfred State College.

Covalent Bonding with Lewis Dot. Covalent Bond When nonmetallic elements react with other nonmetallic elements, they share electrons in order to obtain.

Lewis Structure Practice. Ionic Lewis Structures Metal and Nonmetal First determine the chemical formula if it is not given to you. Draw the Lewis structure.

Covalent Bonding (Molecular Compounds) Subtitle. Properties of a Covalent Bond Formed when at least one pair of electrons are shared between non-metals.

-Types of Covalent Bonds -Rules for Writing Lewis Dot Structures of Molecular Compounds Chemistry Mrs. Coyle.

C h a p t e rC h a p t e r C h a p t e rC h a p t e r 7 7 Covalent Bonding Chemistry 5th Edition McMurry/Fay Chemistry 5th Edition McMurry/Fay.

Lewis Structures Of Covalent Compounds

Lewis Structures Of Covalent Compounds NAB Method.

Drawing Lewis Structures of Molecules Chapter 4 Section 4.

Chemical Bonding. Chemical Bond The forces that hold groups of atoms together and make them function as a unit Bonding involves only the valence electrons.

A visual representation of covalent compounds.  1. Octet Rule ◦ Covalent compounds share electrons so that each atom has an octet of electrons (8) in.

Lewis Structures In Covalent Bonds valence electrons are distributed as shared or BOND PAIRS , and unshared or LONE PAIRS. • •• H Cl shared or bond pair.

Unit 4 Covalent Bonding Fructose Carbon Dioxide Ammonia.

Objectives  I can draw simple Lewis structures of molecules.

NOTES Ionic vs. Molecular Compounds. AKA Salts Formula units Molecular compounds Molecules IONIC / IONIC COVALENT / MOLECULAR.

IIIIIIIV Chemical Bonding Introduction to Bonding.

Covalent Bonds Forming single, double, and triple bonds.

Describe a covalent bond. Identify the parts of a covalent compound diagram. Draw a stick diagram of a covalent compound. Name the following ionic compounds:

Lewis Structures and Molecular Geometry. Valence Electrons Electrons fill orbitals that are on the outside of the nucleus of the atom The number of electrons.

Nature of Covalent Bonding Part 2: Double & Triple Covalent Bonds.

WARM UP: 1. Draw the Lewis diagram for the formation of Calcium Sulfide. 2. What happens to e- during ionic bond formation?

Chapter 9 – Covalent Bonding. Review of Chapter 8 In Chapter 8, we learned about electrons being transferred (“given up” or “stolen away”) This type of.

2.2 Molecular Compounds pp. 61 – 69. First Some Useful Vocabulary  Diatomic molecules – consist of two atoms sharing a covalent bond  Polyatomic molecules.

Lewis Dot Structures of Covalent Compounds Atoms are made up of protons, neutrons, and electrons. The protons and neutrons are located at the center of.

Drawing Lewis Structures of Molecules Chapter 4 Section 4.

Forming single, double, and triple bonds

Atomic Bonding Mrs. Silvia.

Covalent Bonds.

Covalent Bonding.

2.2 Molecular Elements and Compounds

4.3 Covalent Bonding Objectives 1:a-e; 2:a-b

Warm-Up What is a covalent bond?

Molecular Compounds and their Covalent Bonds

Covalent Bonds Chapter 5 Section 3.

Covalent Bonding.

COVALENT BONDING -formed from the sharing of pairs of electrons between atoms of non-metallic elements - Sharing of electrons occurred to satisfy the octet.

Chemical Bonds Force of attraction between two atoms.

Octet Rule Objective: I will apply the octet rule to predict bonding in molecules and draw Lewis Dot Structures for molecules that contain double and.

Covalent Compounds.

Chemical Bonding.

Chapter 6-2 Lewis Structures (p. 206 – 207).

Ionic and Covalent Bonds

Fructose Unit 6 Covalent Bonding Carbon Dioxide Ammonia.

Drawing Lewis Structures (electron dot diagrams)

Covalent Bonding.

Covalent Compounds.

Fructose Unit 6 Covalent Bonding Carbon Dioxide Ammonia.

3.1 Bonding. 3.1 Bonding Ionic Bonding • • • • • Cl Na • • • • • [ Na ]+ [ Cl ]- • • • • • • Form between a metal and a nonmetal Simplest expressed.

V. Lewis Dot Diagrams for Double & Triple Bonds + Polyatomic Ions

6.4 LEWIS STRUCTURE DIAGRAMS

CHEM 121 Chapter 4.

Covalent Bonding.

7.6 – NOTES Lewis Structures

Valence Shell Electrons are all that matter in bonding.

Electron Dot Diagram Find your element on the periodic table.

4.3 Covalent Bonding Objectives 1:a-b,d-f; 2:a-b

Ionic and Covalent bonding Chapters 15 and 16

Fructose Unit 4 Covalent Bonding Carbon Dioxide Ammonia.

Lewis Structures SCH3U/4C March 2016.

7.4 – NOTES Lewis Structures

Covalent Bonds.

Chemical Bonding Notes

Lewis Structures.

Fructose Unit 6 Covalent Bonding Carbon Dioxide Ammonia.

Covalent Bonding (Molecular Compounds)

The Covalent Bond Section 2.

8.3 Covalent Bonding Honors Chem

Presentation transcript:

Covalent Compounds

Covalent Compound Electrons are shared between 2 different atoms – 1 bond forms between two elements that each share one electron with the other element Usually formed between two nonmetals Covalent compounds = molecules

3 types of bonds Single bond – 1 set of electrons shared Double bond – 2 sets of electrons shared Triple bond – 3 sets of electrons shared In terms of strength: Triple > double > single

Drawing Lewis Dot diagrams for Covalent compounds Example: CF 4 1.Determine the total number of valence electrons in the compound C = 4 v.e. F = 7 v.e. x 4 atoms of F = 28 v.e. 4+28= 32 v.e. in the molecule

2. Write the elements for the molecule so that the least electronegative element is in the center. (Usually the molecule that can make the most bonds will be in the center)

3. Add covalent bonds between the central and outside atoms. (Remember: every bond = 2 electrons) 4 bonds x 2 electrons = 8 electrons 32-8 = 24 electrons left

4.Add lone pairs of electrons to the outside atoms until each contains a total of 8 electrons (unless it is H) - Octet rule 4 F each with 3 lone pairs (each lone pair has two electrons) So…4 x =32 electrons, this is the lewis structure for CF 4

5. Add lone pairs to the central atom if there are any left over. Example: Draw the Lewis structure for NH 3

6. Make sure every element has 8 v.e. (except H = 2 and B= 6), add double and triple bonds if necessary to complete the octet rule for each element. Example: Draw the Lewis structure for CH 2 O

Properties of Covalent Compounds Lower melting point than ionic compounds Most are liquids or gases – If solid, not as hard as ionic compounds Weak interparticle forces between molecules Do not conduct electricity or heat