Spring 2009- Notes on Planet Earth version 3.0 - Web-based Class - Syllabus

Introduction | Grading | Contact Information | Objectives | Holidays | Final | Schedule of Readings and Exams

Important changes or notifications will be posted here. Please check here daily.

Posted Sunday, January 14, 2:00 pm:
There is a required meeting Thursday January 22, 2009 at 8:00 am in CSL 422. If you can't make this meeting, then please drop by my office in GMCS 120 for a brief 5 to 10 min chat about the structure of this course, or alternatively watch the Video Introduction at this web site. After watching the video if you have any questions then please contact me as soon as possible.

All exams for the online class are given on Saturday from 9:00 - 10:00 am. I normally give the exams in EBA 343 and 347. At this time I have not yet received offical confirmation that EBA 343 and 347 have been reserved for the times and days indicated in the exam scheduled posted below. When I receive final confirmation I will post that information here. Please continue to check this part of the syllabus daily.

Posted Saturday, January 17, 12:00 pm:
EBA 343 and 347 have been officially reserved for Saturday exams.

Posted Sunday, January 18, 9:30 pm:
The date for exam III was posted incorrectely. Exam 3 will occur on Saturday, April 11 from 9:00 to 10:00 am in EBA 343 and 346.

Posted Monday, February 9, 9:30 am:
After reading the material at the following web site, Lahars, be prepared to answer the following 5 extra credit questions on exam 1.

1. What is a lahar?
2. What is the most common way that a lahar is initiated.
3. What type of volcano is most commonly associated with the development of lahars?
4. How often do lahars derived from Mount Rainier occur?
5. If you were living in Tacoma would you be safe from a lahar?
   

Posted Sunday March 1, 5:00 pm:
Watch the video lecture on mass wasting (Chapter 6) posted on this web site. Pay particular attention to those parts covering the La Conchita and Mount Soledad landslides. After watching the video lecture be prepared to answer the following 10 questions in the Extra Credit section of exam 2.

1. Where is La Conchita located?
2. What kind of a landslide occurred on March 4, 1995 at La Conchita?
3. During the January 10, 2005 event, was new material involved in the landslide?  If not, then what part of the March 4 landslide was reactivated?
4. How thick was the debris that buried 4 blocks of La Conchita during the January 10 event?
5. How many people were killed during the January 10 event at La Conchita?
6. What is thought to have been the major cause of both the March 4 and January 10 landslides at La Conchita?
7. How would you describe the material making up the mountain in back of La Conchita? 
8. What is the name of the most ancient and probably largest landslide?
9. Is it safe to live at La Conchita? If not, then why not?
10. List below two rather obvious similarities between the La Conchita and Mount Soledad landslides?

Posted Thursday March 26, 9:00 am - extra credit Exam 3
The geologic column or geologic time scale is the framework in which geologists view Earth history.  On the CD and web site Figure 7 of Chapter 9 is an example of the geologic column.  You will receive 10 extra credit points if you can list in descending order (youngest/uppermost to oldest/lowermost) the Eonothems/Eons, Erathems/Eras, Systems/Periods, and Series/Epochs of the column shown in Figure 7, Chapter 9.

Posted Monday May 4, 8:00 am - extra credit Exam 4
Pleaes consult the following web site http://www.earthquakecountry.info/10.5/MajorMovieMisconceptions/
Based on your review of that web site please answer the following questions.

1. What is the largest magnitude earthquake recorded in historical time, and what was the length of fault rupture?
2. What is the largest magnitude earthquake recorded in California, and what was the length of fault rupture?
3. What can you deduce about the length of fault rupture and the magnitude of the resulting earthquake?
4. Is a magnitude 10.5 earthquake possible?
5. If your answer to (4) is no, then why not?

Please consult this page for changes and notes during the semester.  In addition, I will report here any errors or needed clarifications of material that are discovered or pointed out to me by your student colleagues.

I lecture to another geology 100 class on the same material on Tuesday and Thursday from 11:00 am to 12:15 pm in NE 60. You are welcome to attend these lectures. If you want to attend one of their lectures, then consult the syllabus for their schedule.

You do not need a scantron for any of the scheduled exams.

Required CD (its your book): Notes on Planet Earth version 3.0 can be purchased in the campus bookstore. This is a new and substantially revised version of the older book (Notes on Planet Earth version 2.0). It is highly recommended that you purchase the new CD (version 3.0) as it contains two new chapters (Mass Wasting and Tsunami).

Introduction

Geologists utilize physics, chemistry, biology, mathematics, and computer science to develop a holistic understanding of our planet. In so doing they have reached the conclusion that the fundamental Earth paradigm is Plate Tectonics, a subject that we will cover in Chapter 1. As you walk on the surface of the Earth, it feels hard and solid. That is because it is built from various types of rocks and sediments, topics that we will cover in Chapters 3, 4, 5, 6, 7 and 8. However, prior to jumping too far ahead it is important to recognize that the rocks and sediments below our feet are made up of many different varieties of minerals, a topic that we will cover in Chapter 2. As you probably already know the Earth has a long complicated history. In Chapter 9 we will delve deeply into this history, and attempt to understand how geologists distinguish time, an abstract but quantifiable term, from material that was deposited during, and therefore is representative of, a particular time. Geologic maps portray the distribution of various types of Earth materials and the complicated forms that are produced by forces acting within and on the surface of our planet. In Chapter 10 we will learn how to read a topographic map, and in Chapters 11 and 12 we will study how to identify folds and faults as well as consider the causes of earthquakes. In Chapter 13 we will evaluate the kinds of evidence that indicate that in the past the global climate of our planet was vastly different than it is today. We will then consider several reasons why that may be the case. We will close our study of planet Earth by investigating the causes of ocean waves, tides, currents, and tsunamis in Chapters 14 and 15.

All exams will be taken on the scheduled dates. Basically, I provide you a web site and a CD that contains all of the material including practice tests. You work through the 15 chapters and take four exams according to schedule listed below. 

At the web site you will find under Contents, links to the 15 major topic areas (chapters) that we will cover this semester along with a link to this syllabus. Below the heading Contents, you will find links to a Glossary, PDF files of practice exams, PDF files for the Geology 101 Laboratories, and Video Lectures. If you have not signed up for the 1 unit Geology 101 Laboratory, then do not worry about the links for the various Laboratories.

Grading/Assessment

There will be four exams, each exam being worth 25% of your total grade.  Extra credit questions will be provided to students via email approximately 1 week prior to each exam. I will not provide answers to the extra credit questions. Answers can be found via a web or library search. All grades will be posted on Blackboard. Posted grades will include earned extra credit points. The 4 exams break the course up into 4 more or less equal quarters. Final grades will be determined based on the following scale.

Range/Grade
100 – 93.3 A
93.3 – 90 A-
89.9 – 86.7 B+
86.7 – 83.3 B
83.3 – 80.0 B-
79.9 – 76.7 C+
76.7 – 73.3 C
73.3 – 70 C-
69.9 – 67.7 D+
67.7 – 63.3 D
63.3 – 60.0 D-
< 60 F

Contact Information

My office phone number is 594-2552 and my e-mail address is ggirty@geology.sdsu.edu. My office is GMCS 120. If you have any questions, then please do not hesitate to call or e-mail me. I have open office hours Monday through Friday. You do not have to email or phone to make an appointment.

Objectives

This course has several overarching and content goals. Overarching goals are outline below and meet several of the Goals and Objectives for GE Courses in the Sciences as outlined in the 2003 SDSU Curriculum Guide

I. Overarching Goals/Outcomes
After completion of this course students will be able to:

1. Articulate the multidisciplinary integrated nature of the Earth Sciences and the importance of its role in their and others everyday lives (Goal 1 – Objectives 2 and 3)

2. Articulate how technological advances along with the collection of a myriad of observational and analytical data over the last 200 years have lead naturally to the interpretation that the Earth originated about 4.6 billion years ago, and that its development has been punctuated by several major planet-wide events that brought about profound change in Earth’s habitants (Goal 2 – Objective 1)

3. Articulate how laboratory experimentation has lead to an enhanced understanding of dynamic earth processes such as faults and earthquakes, and, as a result, how the Earth Sciences have impacted their and others quality of life (Goal 2 – Objective 2; Goal 3 – Objective 3).

4. Articulate how the scientific method is used to infer the causes of global-scale changes that have affected planet Earth over time (Goal 2 – Objectives 2, 3).

5. Articulate examples of everyday observations that indicate that the Earth is dynamic and ever changing, and how these observations impact their daily life (Goal 4 – Objectives 1, 3, 4).

The above overarching goals are intertwined with the following specific content goals.

II. Content Goals/Outcomes
To meet content goals students will be able to:

1. Articulate the role that lithospheric plates and their movements play in shaping the Earth’s landmasses and ocean basins, and the internal compositional and mechanical attributes of planet Earth

2. Identify from their physical and chemical characteristics the common minerals in the non-silicate and silicate mineral groups

3. Distinguish the three major rock groups based on their physical characteristics and modes of formation

4. Articulate the distribution of the 12 major soil orders within the various states, and convey the major climatic or parental controls on this distribution

5. Convey the vastness of geologic time, key biological and physical events that have affected Earth through time, the terminology used to distinguish time from the rocks and sediments deposited during a specific time interval, and the role of the fundamental age equation in establishing the temporal framework for the geologic time scale

6. Identify the different types of faults and demonstrate an understanding of their origin, distribution, and relationship to earthquakes.

7. Identify the different types of folds from their geometrical and stratigraphic character, and the various map symbols used to locate and characterize them on geologic maps.

8. Identify the various landforms displayed on topographic maps, articulate locations in township and range format, and convey the differences between magnetic and geographic north.

9. Articulate the role of the Earth, Moon, and Sun in producing tides, the role of wind in producing waves, and the physical characteristics of deep and shallow water waves.

10. Convey that the Earth’s climate has been different in the past as exemplified by the Great Ice Age, and that the Earth’s climate is influenced by a variety of mechanisms including the precession and obliquity of the Earth’s axis of rotation and the eccentricity of its orbit around the sun along with large volcanic eruptions and bolide impacts.

Holidays

March 30 to April 3- Spring Recess

Final

May 9, 9:00 to 10:00 am - EBA 343 & 347

Schedule of Readings and Exams

Below is the schedule that we will follow during Spring 2009. Please adhere to it. Note that to prevent conflicts with your Monday through Friday class schedule all exams will be given Saturday mornings, from 9:00 am to 10:00 am. Due to the large number of students that have enrolled in the web-based class all exams will be given in EBA-343 & EBA-347.

For each chapter, there is also an online video lecture for you to watch. You are strongly encouraged to first read the material for a given chapter, and then watch the video lecture. After you have completed this task, then download and print out the practice exam. Find a quiet place, and work through all of the questions on the practice exam. If you score a 90 or higher, then you probably know the material well enough that you can go on to the next chapter. If you do not score 90 or higher, then you need to go back over the material. Please note that none of the questions in the practice exams are repeated in the exams that you will be required to take. However, the practice exams focus your attention on the concepts and ideas that I think are important. These concepts and ideas are what I will test you on. Finally, I will post 48 hours prior to each exam a Video Review for you to watch. You are strongly encouraged to watch the video reviews.