GEOP 302

Xiaobing Zhou, Associate Professor of Geophysics


Elements of Geophysics

Appolo 17 Lunar Surface Gravimeter Experiment

Lecture: Monday/Wednesday/Friday 10:00am-11:50am at ELC 106

Instructor: Dr Xiaobing Zhou, Email: xzhou@mtech.edu, Tel: 496-4350

Office Hours: M/W/F 4:00 -5:00 pm, ELC 304

Textbook (required):
Burger, R. H., A. F. Sheehan, and C. H. Jones, Introduction to Applied Geophysics: Exploring the Shallow Subsurface, W W Norton & Company, June 2006. Errata from the textbook are here. You can purchase it at Montana Tech bookstore or online.

References (recommended):
Kearey, P., and M. Brooks, An Introduction to Geophysical Exploration, 3rd edition,  Blackwell Science, Inc., 2002.
Mussett, A. E., and M. A. Khan, Looking into the Earth : An Introduction to Geological Geophysics, Cambridge University Press, 2000.
Reynolds, J., An Introduction to Applied and Environmental Geophysics, John Wiley & Sons Canada, Ltd., 1997.
Parasnis, D. S., Principles of Applied Geophysics, 5th Edition, Kluwer Boston, Inc., 1997.
Telford, W. M., L. P. Geldart, R. E. Sheriff, and D. A. Keys, Applied Geophysics, 2nd Edition, Cambridge University Press, 1990.
Milsom, J., Field Geophysics, Open University Press, 1989.
Robinson, E. S., C. Coruh, Basic Exploration Geophysics, John Wiley & Sons, Inc., 1988.
Griffiths, D. H., and R. F. King, Applied Geophysics for Geologists & Engineers, 2nd edition,  Oxford ; New York : Pergamon Press, 1981.
Introduction to Geophysical Exploration
Glossary of geophysics

Course Description:
Principles of physics applied to geology, earth and environmental sciences, with emphasis on exploration of the shallow subsurface (~500 m). Topics include seismic method, electrical resistivity and electrical method, gravity, magnetic method, ground penetrating radar, and remote sensing. Geophysical instrumentation, data acquisition and analysis, and geologic interpretation of geophysical data. This course is for students who want to be practicing civil engineers, geologists, archaeologists, and environmental practitioners and/or scientists who need an knowledge and skills of modern geophysical methods relevant to their disciplines.

Topics:

Objectives:
1) To develop an understanding of the basic theory of each geophysical methods: seismic, electrical, gravitational, magnetic, and ground penetrating radar methods;
2) To develop an understanding of the principles of instrumentation for each method;
3) To develop the skills to measure the physical properties of the Earth materials using these methods;
4) To develop the capability to interpret the field data and apply these methods.

Course outcomings (complying with ABET A-K):
After this course, you should have
A. an ability to apply knowledge of mathematics, science, and engineering
K. an ability to use the techniques, skills, and modern engineering tools necessary for engineering practice

Grade Policy: The final grade for the course will be determined approximately as follows:

Homework:                            20%
Lab:                                        10%
3-5 Tests:                               70%

Grading scale observes: A=(92,100], A-=[90, 92], B+=(87, 90), B=[83, 87], B-=[80, 83), C+=(77, 80), C=[73, 77], C-=[70, 73), D+=(67, 70), D=[63, 67], D-=[60, 63), F=[0, 60). [ or ] means inclusive, ( or ) means exclusive. Also: A= 4.0, A-=3.7, B+=3.3, B=3.0, B-=2.7, C+=2.3, C=2.0, C-=1.7, D+=1.3, D=1.0, D-=0.7, F=0.

Homework:

Homework will be assigned on Wednesday and due the following Wednesday. Some assignment will involve the use of computer programs. Group discussing is encouraged but copying answers from others is prohibited. Copied homework will be graded as “zero” or “F” for both parties.

Instruments:
1. Gravimeter; Micro-g LaCoste;
2. Magnetometers (1, 2, 3,);
3. Electrical/electromagnetic equipment for resistivity (resistivity meter or electrode, ammeter, voltmeter,EM34-3 etc.);http://www.geonics.com/html/em34-3.html
4. Seismic systems (geophone or seismometer, seismic cable, seismograph unit, etc.)
5. Geophysical Instrument Instructions

Tentative schedule:

Date 

Day

Lecture/Lab  No. 

Topic 

Homework 
Read assignment pages

Agu-23-10
Agu-25-10
Agu-27-10

Monday
Wednesday 
Friday 

Lecture 1 
Lecture 2
Lecture 3

Introduction to geophysical methods
Wave propagation/Elastic coefficients
Seismic  waves/wave velocities

1-6
7-14(HW#1)
14-21

Agu-30-10
Sep-01-10
Sep-03-10

Monday 
Wednesday
Friday

Lecture 4
Lecture 5
Lecture 6

Huygen's/Fermat's principles/Snell's law
Critical refraction/ waves measured by a geophone
Energy partition/sources/equipment

21-28
28-39(HW#2)
39-59

Sep-06-10
Sep-08-10
Sep-10-10

Monday 
Wednesday 
Friday

No class
Lecture 7
Lecture 8

Labor day
Refraction method - single interface
Refraction method - two/multiple interfaces

65-78(HW#3)
81-91

Sep-13-10
Sep-15-10
Sep-17-10

Monday 
Wednesday 
Friday

No class
Lab#1
Lecture  9

Economic development summit
Lab#1: Using REFRACT program
Dipping interfaces


78-79, A1-A5 (HW#4)
91-106

Sep-20-10
Sep-22-10
Sep-24-10

Monday Wednesday
Friday

Lecture 10
Lecture 11
Lecture 12

Nonideal subsurface
Field procedures/applications
TEST 1

106-126
129-141 (HW#5)
149-167

Sep-27-10
Sep-29-10
Oct-01-10

Monday 
Wednesday 
Friday

Lecture 13
Lab #2
Lecture 14

Reflection method - single interface
Lab#2: Using REFLECT program
Reflection method - multiple interfaces

167-182
150-151, A6-A12 (HW#6)
182-199

Oct-04-10
Oct-06-10
Oct-08-10

Monday 
Wednesday 
Friday

Lecture 15
Lecture 16
Lecture 17

Reflection method - dipping interface
Recognizing reflections/field procedures
Data processing/applications

200-229
229-253 (HW#7)
265-279

Oct-11-10  
Oct-13-10
Oct-15-10

Monday 
Wednesday 
Friday

Lecture 18
Lab#3
Lecture 19

Electrical method – introduction
Lab#3: Using RESIST program
Single interface/apparent resistivity

280-297
297-302, A13-A16 (HW#8)
302-314

Oct-18-10
Oct-20-10
Oct-22-10

Monday  
Wednesday  
Friday

Lecture 20
Lecture 21
Lecture 22

Multiple interfaces/vertical contacts & others
Field procedures/interpretation

Applications/other electrical methods

314-331
331-340 (HW#9)
349-356

Oct-25-10
Oct-27-10
Oct-29-10

Monday 
Wednesday 
Friday

Lecture 23
Lecture 24
Lecture 25

TEST 2
Gravity measurement/instrumentation
Data reduction/field procedures

356-378
378-388 (HW#10)
388-399

Nov-01-10
Nov-03-10
Nov-05-10

Monday 
Wednesday 
Friday

Lecture 26
Lab#4
Lecture 27

Gravity of simple bodies (1)
Lab#4: Using GravMag program for Grav
Gravity of simple bodies (2)

399-410
397-399, A17-A23 (HW#11)
410-415

Nov-08-10
Nov-10-10
Nov-12-10

Monday 
Wednesday 
Friday

Lecture 28
Lecture 29
Lecture 30

Analyzing anomaly
Gravity data interpretation
Gravity method applications

415-420
420-438 (HW#12)
438-446

Nov-15-10
Nov-17-10
Nov-19-10

Monday 
Wednesday 
Friday

Lecture 31
Lecture 32
Lecture 33

Magnetic method - introduction
Geomagnetic field
Magnetic field measurement -instrument

446-450
450-454 (HW#13)
454-465

Nov-22-10
Nov-24-10
Nov-26-10

Monday 
Wednesday 
Friday

Lecture 34
No class
No class

 Magnetic survey procedure
Thanksgiving break
Thanksgiving break
 465-482

Nov-29-10
Dec-01-10
Dec-03-10

Monday 
Wednesday 
Friday

Lecture 35
Lab#5
Lecture 36

Magnetic field of simple bodies (1)
Lab#5: Using GravMag program for Mag
Magnetic data interpretation (1)

478-482
A17-A23 (HW#14)
482-488

Dec-06-10
Dec-08-10
Dec-10-10

Monday
Wednesday
Friday

Lecture 37
Lecture 38
TEST 3

Magnetic data interpretation (2)
Magnetic applications

488-494
(last HW due)

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Last Updated: August 8, 2010