Show:
Geometry
Shape and Bond Angle
Hybridization
Bonding
Polarity and Electronegativity
100

Electron Geometry of CO2 and how many valence electrons are available:

Linear and 18 e-

100

Shape and bond angle for H2O

Bent and 109.5

100

The hybridization around the central atom in CH4

sp3

100

What is a sigma bond?

A direct overlap of orbitals, single bonds

100

Polar or nonpolar, and the electronegativity difference: Cl2

Nonpolar and 0

200

Molecular geometry of NH3 and how many valence electrons are available:

Trigonal Pyramidal and 8 e-

200

Shape and bond angle for SO3

Trigonal Planar and 120

200

The hybridization around the central atom in CO2

sp

200

What is a pi bond?

An indirect overlap of p orbitals, double and triple bonds

200

Polar or nonpolar, and the electronegativity difference: H2O

Polar and 1.24

300

Electron Geometry of SO3-2 and how many valence electrons are available:

Tetrahedral and 26 e-

300

Shape and Bond angle for CH4

Tetrahedral and 109.5

300

The hybridization around the central atom in SO3

sp2

300

How many sigma and pi bonds are in the folllowing molecule: O3

2 sigma, 1 pi

300

Polar or nonpolar, and the electronegativity difference: CO2

Nonpolar and 0.89

400

Molecular Geometry of ClF4+ and how many valence electrons

See saw and 34 e-

400

Shape and bond angle for NH3

Trigonal Pyramidal and 109.5

400

The hybridization around the central atom in NH3

sp3

400

How many sigma and pi bonds are in the following molecule: CH3OH

5 sigma and 0 pi

400

Polar or nonpolar, and the electronegativity difference: SO2

Polar and 0.86

500

Electron Geometry of O3 and number of valence electrons

Trigonal Planar and 18 e-

500

Shape and Bond angle for XeCl2

Bent and 120/90

500

The hybridization around the central atom in SF6

sp3d2

500

How many sigma and pi bonds are in the following molecule: CH2O

3 sigma and 1 pi

500

Dipole definition and its symbol representation 

A molecule with a center of positive and negative charge; +---->