Test Topics

[Celine 1F]

What material is going to be on the test next week? Will we have to draw VSEPR models on the test?

[Hiba Alnajjar_2C]

The test should cover everything we've done after the midterm, so the concepts after Focus 2D, including intermolecular forces and VSEPR. From what I understood during yesterday's lecture, we won't be required to actually draw VSEPR models but, rather, we'll have to identify the molecular shape & geometry.

[Matthew ILG 1L]

We won't have to draw VSEPR models, but we will most likely have to draw lewis structures and be able to label the VSEPR information.

[Victor James 4I]

VSPR info as in bond angles and the names of the formation?

[Debora Fernandez Clemente_ 4H]

VSPR info as in bond angles and the names of the formation?

yes I believe that is correct!

[Destiny_Ryales_3J]

Wait so from which week to which week is this material from?

[Debora Fernandez Clemente_ 4H]

There really is not a week to week schedule to follow, its better to look at the syllabus and study any material after 2D for the test, so basically anything after the midterm. This excludes hybridization

[Michelle Chan 1J]

In class he said everything up to sigma and pi bonds (which we will learn on Monday), so IMF, shapes, and bonds.

[ATingin_3I]

Wait so from which week to which week is this material from?

I would just look at the outlines and go from there to study

[Sadhana_Dicussion_4A]

Using the Valence-Shell Electron-Pair Repulsion Model (VSEPR) to determine the shape of inorganic, organic, and small biological molecules, cations, and anions, using bond dipole moments and shape to determine if a molecule is polar or non-polar, using shape and polar or non-polar properties, identifying different intermolecular interactions/forces (H-bonding, dipole-dipole, dispersion), explaining why lone pairs are more likely to be found in certain locations around a central atom and how and why they affect the bond angles in a molecule, cation, or anion, and distinguishing sigma and pi bonds by their shapes, properties, and component orbitals.

[Megan Ngai- 3B]

It should be everything after 2D!

[Betania Hernandez 2E]

Anything after the midterm, so anything after 2D and up to Monday's lecture.