Download Lab Activity: Molecular Model Building

Lab Activity: Molecular Model Building
Part I
The first set of molecules we will examine contain only two atoms. For each of the following, draw the Lewis structure, identify the molecular
shape and the polarity of the molecule.
Species
Draw the Lewis Dot Structure
Molecular Shape
(linear, bent, trigonal planar, trigonal
pyramidal, tetrahedral?)
Polarity
(polar or nonpolar?)
H2
Br2
HBr
N2
CO
Conclusions:
If only two atoms are bonded, the molecular shape will always be _______________.
If the two bonded atoms are identical, the molecule is ____________(polar or nonpolar).
If the two atoms are different, the molecule is _____________(polar or nonpolar). The atom with the ___________(greater, smaller)
electronegativity will be partially negative (-).
Page 1 of 6
Part II
(table of molecules starts on page 3)
1. The following molecules contain more than 2 atoms. Draw the Lewis structure for each of them.
2. Make a model of the molecule. Use the short gray plastic connecting rods for single bonds and lone pairs of electrons.
Use the longer flexible connecting rods for double and triple bonds. (2 for a double bond; 3 for a triple bond)
Use the following colored spheres:
C, Si = Black
N, P, As = Blue
H = White
O, S = Red
Cl, Br, I = use purple or orange
If the "red" sphere is the central atom, you won't be able to see the lone pairs of electrons. If you like, you can use a black sphere in these
cases.
3. The electron geometry is determined by the number of electron groups on the central atom. (Hint: Look at the arrangement of the
connecting rods.)
4 groups result in a tetrahedral arrangement of the electron groups.
3 groups result in a trigonal planar arrangement of the electron groups.
2 groups result in a linear arrangement of the electron groups.
4. Determine the molecular shape of the molecule. While the lone pairs of electrons influence the molecular shape, the arrangement of the
ATOMS is used to describe the molecular shape. DO NOT USE ANY ABBREVIATIONS IN YOUR ANSWERS!
Page 2 of 6
Possible Shapes for Molecules with 4 electron groups around the central atom
(bond angles near 109.5o)
Molecular Shape
3D sketch and Lewis structure
Tetrahedral
A four sided figure. Each side is an equilateral triangle.
Trigonal pyramidal
A four sided figure. Three sides are isosceles triangles.
They are sitting on an equilateral triangular base.
Bent
A nonlinear arrangement of atoms.
Possible Shapes for Molecules with 3 electron groups around the central atom
(bond angles near 120o)
Molecular Shape
3D sketch and Lewis structure
Trigonal Planar
A flat molecule. The atoms bonded to the central atom form an equilateral triangle.
The central atom sits in the center of the triangle.
Bent
A nonlinear arrangement of atoms.
Page 3 of 6
Species
Lewis Dot Structure
# of Electron
Groups
Electron Geometry
(linear, trigonal
planar, tetrahedral?)
Include bond
angles!
CBr4
CHBr3
OF2
H2S
(*) Your instructor may specify which molecules to work on regarding this question.
Page 4 of 6
Molecular Shape
(linear, bent, trigonal
planar, trigonal
pyramidal, tetrahedral?)
Polarity (*)
(polar or nonpolar?)
Species
Lewis Dot Structure
# of Electron
Groups
Electron Geometry
(linear, trigonal
planar, tetrahedral?)
Include bond
angles!
SCl2
PCl3
CS2
HCN
COCl2
Page 5 of 6
Molecular Shape
(linear, bent, trigonal
planar, trigonal
pyramidal, tetrahedral?)
Polarity (*)
(polar or nonpolar?)
This page contains polyatomic ions. They have gained or lost valence electrons to become charged.
Species
Lewis Dot Structure
# of Electron
Groups
Electron Geometry
(linear, trigonal
planar, tetrahedral?)
Include bond
angles!
Molecular Shape
(linear, bent, trigonal
planar, trigonal
pyramidal, tetrahedral?)
Polarity (*)
(polar or nonpolar?)
NO2 –
NH4 +
CO3 2–
-
2-
**Nitrite (NO2 ) and carbonate (CO3 ) have resonance structures – different but equivalent Lewis structures. Draw at least two resonance structures for
these polyatomic ions.
Page 6 of 6