Presentation is loading. Please wait.

Presentation is loading. Please wait.

Chapter Menu Covalent Bonding Section 8.1Section 8.1The Covalent Bond Section 8.2Section 8.2 Naming Molecules Section 8.3Section 8.3 Molecular Structures.

Published byJohn Lee Modified over 8 years ago

Similar presentations

Presentation on theme: "Chapter Menu Covalent Bonding Section 8.1Section 8.1The Covalent Bond Section 8.2Section 8.2 Naming Molecules Section 8.3Section 8.3 Molecular Structures."— Presentation transcript:

1

2

3 Chapter Menu Covalent Bonding Section 8.1Section 8.1The Covalent Bond Section 8.2Section 8.2 Naming Molecules Section 8.3Section 8.3 Molecular Structures Section 8.4Section 8.4 Molecular Shapes Section 8.5Section 8.5Electronegativity and Polarity Exit Click a hyperlink or folder tab to view the corresponding slides.

4 Atomic Hook-ups:Atomic Hook-ups Types of Chemical Bonds

5 Section 8-1 Section 8.1 The Covalent Bond Apply the octet rule to atoms that form covalent bonds. chemical bond: the force that holds two atoms together Describe the formation of single, double, and triple covalent bonds. Contrast sigma and pi bonds. Relate the strength of a covalent bond to its bond length and bond dissociation energy.

6 Section 8-1 Section 8.1 The Covalent Bond (cont.) covalent bond molecule Lewis structure sigma bond Atoms gain stability when they share electrons and form covalent bonds. pi bond endothermic reaction exothermic reaction

7 Section 8-1 Why do atoms bond? Atoms gain stability when they share electrons and form covalent bonds. Lower energy states make an atom more stable. Gaining or losing electrons makes atoms more stable by forming ions with noble-gas electron configurations. (Ionic Bonding) Sharing valence electrons with other atoms also results in noble-gas electron configurations. (Covalent Bonding)

8 Section 8-1 Why do atoms bond? (cont.) Atoms in non-ionic compounds share electrons. The chemical bond that results from sharing electrons is a covalent bond.covalent bond A molecule is formed when two or more atoms bond.molecule

9 Section 8-1 Why do atoms bond? (cont.) Diatomic molecules (H 2, F 2 for example) exist because two-atom molecules are more stable than single atoms.

10 Section 8-1 Why do atoms bond? (cont.) The most stable arrangement of atoms exists at the point of maximum net attraction, where the atoms bond covalently and form a molecule.

11 Section 8-1 Single Covalent Bonds When only one pair of electrons is shared, the result is a single covalent bond. The figure shows two hydrogen atoms forming a hydrogen molecule with a single covalent bond, resulting in an electron configuration like helium.

12 Section 8-1 Single Covalent Bonds (cont.) In a Lewis structure, dots or a line are used to symbolize a single covalent bond.Lewis structure The halogens—the group 17 elements—have 7 valence electrons and form single covalent bonds with atoms of other non-metals.

13 Section 8-1 Single Covalent Bonds (cont.) Atoms in group 16 can share two electrons and form two covalent bonds. Water is formed from one oxygen with two hydrogen atoms covalently bonded to it.

14 Section 8-1 Single Covalent Bonds (cont.) Atoms in group 15 form three single covalent bonds, such as in ammonia.

15 Section 8-1 Single Covalent Bonds (cont.) Atoms of group 14 elements form four single covalent bonds, such as in methane. That’s why Carbon is a tramp

16 Section 8-1 Single Covalent Bonds (cont.) Sigma bonds are single covalent bonds.Sigma bonds Sigma bonds occur when the pair of shared electrons is in an area centered between the two atoms.

17 Section 8-1 Multiple Covalent Bonds Double bonds form when two pairs of electrons are shared between two atoms. Triple bonds form when three pairs of electrons are shared between two atoms.

18 Section 8-1 Multiple Covalent Bonds (cont.) A multiple covalent bond consists of one sigma bond and at least one pi bond. The pi bond is formed when parallel orbitals overlap and share electrons.pi bond

19 Section 8-1 The Strength of Covalent Bonds The strength depends on the distance between the two nuclei, or bond length. As length increases, strength decreases.

20 Section 8-1 The Strength of Covalent Bonds (cont.) The amount of energy required to break a bond is called the bond dissociation energy. The shorter the bond length, the greater the energy required to break it.

21 Section 8-1 The Strength of Covalent Bonds (cont.) An endothermic reaction is one where a greater amount of energy is required to break a bond in reactants than is released when the new bonds form in the products.endothermic reaction An exothermic reaction is one where more energy is released than is required to break the bonds in the initial reactants.exothermic reaction

22 A.A B.B C.C D.D Section 8-1 Section 8.1 Assessment What does a triple bond consists of? A.three sigma bonds B.three pi bonds C.two sigma bonds and one pi bond D.two pi bonds and one sigma bond

23 A.A B.B C.C D.D Section 8-1 Section 8.1 Assessment Covalent bonds are different from ionic bonds because: A.atoms in a covalent bond lose electrons to another atom B.atoms in a covalent bond do not have noble-gas electron configurations C.atoms in a covalent bond share electrons with another atom D.atoms in covalent bonds gain electrons from another atom

Download ppt "Chapter Menu Covalent Bonding Section 8.1Section 8.1The Covalent Bond Section 8.2Section 8.2 Naming Molecules Section 8.3Section 8.3 Molecular Structures."

Similar presentations

Covalent Bonding Bonding models for methane, CH 4. Models are NOT reality. Each has its own strengths and limitations.

Covalent Bonding Bonding models for methane, CH 4. Models are NOT reality. Each has its own strengths and limitations.
Covalent Bonding and Molecular Compounds.  Many chemical compounds are composed of molecules.  A molecule is a neutral group of atoms that are held.

Covalent Bonding and Molecular Compounds.  Many chemical compounds are composed of molecules.  A molecule is a neutral group of atoms that are held.
Covalent Bonding Bonding models for methane, CH 4. Models are NOT reality. Each has its own strengths and limitations.

Covalent Bonding Bonding models for methane, CH 4. Models are NOT reality. Each has its own strengths and limitations.
Chapter 8 Covalent Bonding

Chapter 8 Covalent Bonding
Click a hyperlink or folder tab to view the corresponding slides.

Click a hyperlink or folder tab to view the corresponding slides.
Chapter 6 CHEMICAL BONDING. WHAT IS ELECTRONEGATIVITY? WHY DOES IT MATTER?

Chapter 6 CHEMICAL BONDING. WHAT IS ELECTRONEGATIVITY? WHY DOES IT MATTER?
Covalent Bonding Vocabulary Covalent bond Resonance Molecule

Covalent Bonding Vocabulary Covalent bond Resonance Molecule
Covalent Bonding Unit 8 Notes Covalent Bonding Atoms gain stability when they share electrons and form covalent bonds. Lower energy states make an atom.

Covalent Bonding Unit 8 Notes Covalent Bonding Atoms gain stability when they share electrons and form covalent bonds. Lower energy states make an atom.
Section 8.1 The Covalent Bond

Section 8.1 The Covalent Bond
Chapter 8 Covalent Bonding. The Covalent Bond Atoms will share electrons in order to form a stable octet. l Covalent bond : the chemical bond that results.

Chapter 8 Covalent Bonding. The Covalent Bond Atoms will share electrons in order to form a stable octet. l Covalent bond : the chemical bond that results.
LT 2: Covalent Bonding. Why do atoms bond? Atoms gain stability when they share electrons and form covalent bonds. This gives the atoms a FULL outer energy.

LT 2: Covalent Bonding. Why do atoms bond? Atoms gain stability when they share electrons and form covalent bonds. This gives the atoms a FULL outer energy.
Chapter 6: Chemical Bonds

Chapter 6: Chemical Bonds
Chapter Menu Covalent Bonding Section 8.1Section 8.1The Covalent Bond Section 8.2Section 8.2 Naming Molecules Section 8.3 Molecular Structures Section.

Chapter Menu Covalent Bonding Section 8.1Section 8.1The Covalent Bond Section 8.2Section 8.2 Naming Molecules Section 8.3 Molecular Structures Section.
Covalent Bonding and Molecular Compounds Chemical Bonding.

Covalent Bonding and Molecular Compounds Chemical Bonding.
Covalent Bonding Chapter 9.

Covalent Bonding Chapter 9.
Covalent Bonding Chapter 8. 8.1 The Covalent Bond  In order for an atom to gain stability, it can gain, lose, or share electrons.  Atoms that share.

Covalent Bonding Chapter The Covalent Bond  In order for an atom to gain stability, it can gain, lose, or share electrons.  Atoms that share.
Section 8.3 Molecular Structures List the basic steps used to draw Lewis structures. ionic bond: the electrostatic force that holds oppositely charged.

Section 8.3 Molecular Structures List the basic steps used to draw Lewis structures. ionic bond: the electrostatic force that holds oppositely charged.
Section 9.1.

Section 9.1.
Lecture 37 Covalent Bonds Ozgur Unal 1.  What type of bond exist between the ions?  NaClMgCl2Ca3(PO4)2 2  Are the following compounds ionic compounds?

Lecture 37 Covalent Bonds Ozgur Unal 1.  What type of bond exist between the ions?  NaClMgCl2Ca3(PO4)2 2  Are the following compounds ionic compounds?
Covalent Bonds.  Octet rule – all atoms want to have 8 electrons in their outer shell  Exception – helium (2)  Noble gases – very stable  Binary ionic.

Covalent Bonds.  Octet rule – all atoms want to have 8 electrons in their outer shell  Exception – helium (2)  Noble gases – very stable  Binary ionic.

Similar presentations

Ads by Google