Lewis Dot Diagrams for Compounds

Lewis Dot Diagrams for Compounds
DO NOW: Draw the Lewis Dot Diagram for the following neutral atoms in their ground state: Hydrogen Carbon Oxygen HOMEWORK: In your Pearson Chemistry textbook, read pages and complete # 1-3, 5, & 6 on page 225

AIM: SWK… Matter/substances combine in predictable patterns. OBJECTIVE: SWBAT… Draw Lewis Dot Diagrams for molecular compounds. In Pearson Chemistry textbook, read pages and complete # 1-3, 5, & 6 on page 225 =

Recall the relationship between the electron configuration for an element, and the Lewis dot diagram for the element.

In a Lewis dot diagram for an element, the elemental symbol represents the kernel of the atom, and the dots represent the electrons of the valence shell. Ne Kernel 

In a Lewis dot diagram for an element, the elemental symbol represents the kernel of the atom, and the dots represent the electrons of the valence shell. Ne Valence Electrons 

Each side of a Lewis dot diagram represents an orbital, which can hold up to two electrons. p1 orbital Ne p2 orbital s orbital p3 orbital

Ex #1 How would we draw the Lewis dot diagram for oxygen (O), which has the electron configuration of 1s2 2s2 2p4 ? First, we write the elemental symbol for the element, to represent the nucleus and all of the electrons except the valence shell. O

Ex # 1. How would we draw the Lewis dot diagram for oxygen (O), which has the electron configuration of 1s2 2s2 2p4 ? Next, we will draw dots to represent the valence electrons. Do you recall how to identify the valence shell? O 1s2 2s2 2p4

Ex # 1. How would we draw the Lewis dot diagram for oxygen (O), which has the electron configuration of is 1s2 2s2 2p4 ? Oxygen has six electrons in the valence shell. O 1s2 2s2 2p4

Ex #1. How would we draw the Lewis dot diagram for oxygen (O), which has the electron configuration of 1s2 2s2 2p4 ? The pair of s-electrons (2s2 in our example) are usually drawn on one side. O 1s2 2s2 2p4

Ex #1. How would we draw the Lewis dot diagram for oxygen (O), which has the electron configuration of 1s2 2s2 2p4 ? The p-electrons (there are 4 in our example) are placed one to a side, until they must double up. O 1s2 2s2 2p4

Ex # 1. How would we draw the Lewis dot diagram for oxygen (O), which has the electron configuration of 1s2 2s2 2p4 ? The p-electrons (there are 4 in our example) are placed one to a side, until they must double up. O 1s2 2s2 2p4

Ex# 1. How would we draw the Lewis dot diagram for oxygen (O), which has the electron configuration of is 1s2 2s2 2p4 ? The p-electrons (there are 4 in our example) are placed one to a side, until they must double up. O 1s2 2s2 2p4

The orbitals that are not filled represent potential bonding sites. lone electrons O paired electrons 1s2 2s2 2p4 dot diagram for oxygen

We would predict that this atom could make two single bonds or one double bond. bonding electrons O 1s2 2s2 2p4 dot diagram for oxygen

If we know the molecular formula for the molecule, it is simply a matter of drawing the individual Lewis dot diagrams for each atom involved, and putting them together like the pieces of a puzzle.

Hydrogen is in the first column of the periodic table, with an electron configuration of 1s1, so the Lewis dot diagram for hydrogen has one dot. Hydrogen: Of course, we will need two hydrogen atoms, because the formula for water is H2O.

Oxygen, in column 16, has an electron configuration of 1s2 2s2 2p4, and 6 valence electrons. Hydrogen: Oxygen:

Now, we can put the atoms together like pieces of a puzzle. Feel free to move electrons in the process. Hydrogen: Oxygen:

Each single covalent bond represents a shared pair of electrons. Shared pair  Lewis dot diagram for water

Remember, the atoms do not share the electrons equally. Shared pair  Lewis dot diagram for water

Notice that oxygen now has a complete octet, with a valence shell like the noble gas neon. Lewis dot diagram for water

The hydrogen atoms (which are small) each have two valence electrons, like the noble gas helium. Lewis dot diagram for water

Also, notice that the shape of the Lewis dot diagram is similar to the shape of the actual molecule. Lewis dot diagram for water

Let’s use this opportunity to review coordinate covalent bonds. Lewis dot diagram for water

Coordinate covalent bonds, are formed when one atom provides both electrons for a shared pair. Lewis dot diagram for water

A hydrogen ion (H+) is a bare proton. Lewis dot diagram for water

It is so reactive that it can attach itself to the oxygen atom in water and force it to share a pair of electrons, even though it comes empty handed! Coordinate covalent bond

The result of this interaction is the hydronium (H3O+) ion. + Lewis dot diagram for hydronium ion.

Classwork: In the Prentice Hall workbook (red & blue) complete Section 8.2, pg 71-72 Homework: In Pearson Chemistry textbook, read pages and complete # 1-3, 5, & 6 on page 225

DO NOW: Draw the Lewis Dot Diagram for: Nitrogen trihydride Carbon dioxide AIM: SWK… Matter/substances combine in predictable patterns. OBJECTIVE: SWBAT… Draw Lewis Dot Diagrams for ionic compounds.

Hint: Carbon dioxide has two double covalent bonds. Carbon: Oxygen: Carbon dioxide:

HOMEWORK: In Pearson Chemistry textbook, read pages , then complete # , 16 & 20 on page 238 =

Sodium chloride (NaCl) is an ionic compound, as a check of the electronegativies of the elements involved will show. The first thing we need to do is find the proper Lewis dot diagrams for the ions involved.

Neutral sodium has an electron configuration of 1s2 2s2 2p6 3s1. This means that it has one valence electron, and a Lewis dot diagram as shown below. Na

Recall also, the relationship between the oxidation number for an element, and the Lewis dot diagram for the element.

Sodium has an oxidation number of +1, which means that it forms a +1 ion by giving up its one valence electron. Na 1s2 2s2 2p6 3s1

This leaves the sodium (Na+) ion, with 8 valence electrons, since the second energy level is now its valence shell. + Na 1s2 2s2 2p6

Notice that this configuration leaves the sodium ion with no lone electrons to form covalent bonds with. + Na 1s2 2s2 2p6

Next, we look at neutral chlorine, which has an electron configuration of 1s2 2s2 2p6 3s2 2p5. This means that it has seven valence electrons, and a Lewis dot diagram as shown below. Cl

With its one available bonding electron, a neutral chlorine will often form a covalent bond with another neutral atom to form the diatomic chlorine molecule, Cl2, as will all diatomic atoms. Cl

However, in the case of ionic compounds, chlorine will become an ion. Chlorine has an oxidation number of –1, meaning that it gains one electron to become the chloride ion. - Cl

Now, we simply write the Lewis dot diagrams of each element next to each other. Be careful not to make it look like the electron clouds overlap with each other.

In order to make the fact that the two electron clouds don’t overlap more obvious, brackets are sometime put around ions, as shown below. + -

Example 3. Potassium reacts with bromine to form potassium bromide. Draw the proper Lewis dot diagram for this product. Hint: Check oxidation numbers, and electronegativities!

Example 3. Potassium reacts with bromine to form potassium bromide. Draw the proper Lewis dot diagram for this product. Potassium ion (K+): Bromide ion (Br-): Potassium bromide (KBr):

Example 5. Zinc reacts with iodine to produce zinc iodide. Draw the proper Lewis dot diagram for this product. Hint: Check oxidation numbers, and electronegativities!

Example 5. Zinc reacts with iodine to produce zinc iodide. Draw the proper Lewis dot diagram for this product. Zinc: Iodide: Zinc iodide (ZnI2):

Pre-work video for visual learning if baseline expectations were met. Classwork: In the Prentice Hall workbook (red & blue) complete Section 7.2, pg 61-62 HOMEWORK: In Pearson Chemistry textbook, read pages , then complete # , 16 & 20 on page 238

Classwork: In the Prentice Hall workbook (red & blue) complete Section 7.2, pg 61-62 HOMEWORK: In Pearson Chemistry textbook, read pages , then complete # , 16 & 20 on page 238

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