This science course explores what biodiversity is and how we can measure it. We look at concepts related to biodiversity widely used (and misused) in the media, the importance of biodiversity to sustain human life on Earth,and how biodiverstity is related to our economy, society and politics. Laboratory sessions include Saturday visits to the aquarium, museums or the zoo.
| Day | Start Time | End Time | Room |
|---|---|---|---|
Tuesday | 09:00 | 10:20 | C-104 |
Friday | 09:00 | 10:20 | C-104 |
| Day | Start Time | End Time | Room |
|---|---|---|---|
Tuesday | 12:10 | 15:05 | C-401 |
| Day | Start Time | End Time | Room |
|---|---|---|---|
Friday | 12:10 | 15:05 | C-401 |
This science course explores what biodiversity is and how we can measure it. We look at concepts related to biodiversity widely used (and misused) in the media, the importance of biodiversity to sustain human life on Earth, and how biodiversity is related to our economy, society and politics. Laboratory sessions include Saturday visits to the aquarium, museums or the zoo.
https://aupforms.formstack.com/workflows/science_without_lab_request
| Day | Start Time | End Time | Room |
|---|---|---|---|
Tuesday | 09:00 | 10:20 | C-104 |
Friday | 09:00 | 10:20 | C-104 |
Managing risk associated with natural environmental disasters (volcanoes, hurricanes, tornadoes, tsunamis, etc.) and unnatural disasters (oil spills, nuclear fallout, toxic spills, groundwater exhaustion, eutrophication, global warming) is a fundamental aspect of environmental policy. In this course, students will learn about the underlying physical processes of the most common and costly environmental disasters afflicting society today, and will examine historical landmark cases, discussing damage cost models (infrastructure, life, ecosystem) and risk minimization strategies (relocation, protection, resource or technology discontinuation).
*Lab required
| Day | Start Time | End Time | Room |
|---|---|---|---|
Monday | 10:35 | 11:55 | C-104 |
Thursday | 10:35 | 11:55 | C-104 |
| Day | Start Time | End Time | Room |
|---|---|---|---|
Monday | 13:45 | 16:40 | C-401 |
| Day | Start Time | End Time | Room |
|---|---|---|---|
Thursday | 13:45 | 16:40 | C-401 |
Managing risk associated with natural environmental disasters (volcanoes, hurricanes, tornadoes, tsunamis, etc.) and unnatural disasters (oil spills, nuclear fallout, toxic spills, groundwater exhaustion, eutrophication, global warming) is a fundamental aspect of environmental policy. In this course, students will learn about the underlying physical processes of the most common and costly environmental disasters afflicting society today, and will examine historical landmark cases, discussing damage cost models (infrastructure, life, ecosystem) and risk minimization strategies (relocation, protection, resource or technology discontinuation).
https://aupforms.formstack.com/workflows/science_without_lab_request
| Day | Start Time | End Time | Room |
|---|---|---|---|
Monday | 10:35 | 11:55 | C-104 |
Thursday | 10:35 | 11:55 | C-104 |
This is a conceptual physics course for non-scientists. It discusses the principles of physics involved in the production, distribution and consumption of energy using various types of fuel. It also considers the environmental issues related to the use of fossil fuels from a scientific viewpoint. Renewable sources of energy and the economic and political implications of their development as well as ways of conserving energy are also discussed.
*Lab required.
| Day | Start Time | End Time | Room |
|---|---|---|---|
Monday | 09:00 | 10:20 | C-104 |
Thursday | 09:00 | 10:20 | C-104 |
| Day | Start Time | End Time | Room |
|---|---|---|---|
Monday | 10:35 | 13:30 | C-401 |