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

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Presentation on theme: "4.3 Covalent Bonding Objectives 1:a-e; 2:a-b"— Presentation transcript:

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

2 Essential Questions What is a covalent bond?
How can you tell if two elements can form a covalent bond? What is a molecule? What are the properties of molecular compounds? How are Lewis Structures drawn?

3 Covalent Bonding A covalent bond is when valence electrons are shared between two nonmetals. By sharing electrons each element in the covalent bond gets a full valence fulfilling the octet rule A covalent bond forms when atoms have a relatively small difference in electronegativity.

4 Covalent Bonds (cont) Classify the following as ionic or covalent
CuCO3 Ti2S3 NH3 BaI2 C6H12O6

5 Covalent Bonds (cont) Two atoms held together by sharing a pair of electrons are joined by a single covalent bond so that both atoms have a full shell like a noble gas

6 Covalent Bonds (cont) Single bond: One shared pair of electrons
Double bond: Two shared pairs Triple bond: Three shared pairs Double and triple bonds form when an atom needs to share additional electron pairs to become like a noble gas Triple bonds are the strongest and the shortest

7 Molecular Compounds A molecule is a neutral group of atoms held together by covalent bonds. A molecular or covalent compound is a compound made up of molecules.

8 Molecular Compounds (cont)
Properties of molecular compounds: Low melting and boiling points Are not brittle Do not conduct electricity in solution or individually Insoluble or very low solubility in water (doesn’t dissolve well) Some smell

9 Formulas Molecular compounds can have their formula written out two different ways: molecular and structural Molecular formulas are chemical formulas for molecules and show what atoms make up a molecule Structural formulas show how the atoms are bonded and are done using Lewis structures

10 Strategy for Building Molecules
Step #1: Look up valence number for each atom and add them up Hydrogen cyanide (HCN) H  1 C  4 N  5 10 Total Electrons For anions add the number of the charge to the e- For cations subtract the number of the charge from the e-

11 H C N Step #2 Start by adding single bonds between atoms
The least electronegative element (farthest from F) goes in the center Except C always goes in the center and H never does. H C N

12 Step #3 Add electron dots around each atom so it has a full set of valence electrons Each atom surrounded by 8 electrons Bond lines count as 2 electrons NOTE: Hydrogen only wants 2 max Boron usually only wants 6 H C N

13 H C N Step #4 14 electrons, can only have 10 e-
Add up electrons to see if they match the number calculated in step 1. H C N Do not need to redraw picture 14 electrons, can only have 10 e- If number matches, your done If it does not move to next step.

14 H C N Step #5 Try a double bond
Next try another double bond or a triple bond Unshared pair are electrons that are not involved in a bond H C N Unshared pair of electrons

15 HONC rule HONC is a way to remember how many bonds each type of atoms usually needs based on unpaired electrons Hydrogen and Halogens– 1 bond Oxygen’s group -2 bonds Nitrogen’s group -3 bonds Carbon’s group - 4 bonds Try CO2 on your own.

16 Lewis Structures Draw Lewis structures for the following: H2O AsH3
CCl2H2 C2H4 OH- NO2- NH4+ PNO2-

17 Essential Questions What is a covalent bond?
How can you tell if two elements can form a covalent bond? What is a molecule? What are the properties of molecular compounds? How are Lewis Structures drawn?

18 4.3 Tracked Assignment Worksheet

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