Recognizing Folds and Faults Lab Report
Order ID: 89JHGSJE83839 Style: APA/MLA/Harvard/Chicago Pages: 5-10 Instructions:
Structural Geology Classifying and Recognizing Folds and Faults
I. INTRODUCTION & PURPOSE
Structural geology is the study of how geologic rock units are initially arranged and later deformed. Changing spatial relations between geologic units and the stress and strain that occur during deformation events are key aspects in understanding geologic structures. The purpose of this lab is to both learn and apply the concepts of structural geology to reading and interpreting geologic structures, including tilted beds, folds, and faults. The terms and concepts of geologic structures, the application of structural geology to mountain building events, and the techniques used to interpret geologic structures will be presented and discussed. The three types of graphic representations of geologic structures: 1) geologic maps, 2) geologic cross-sections, and 3) block diagrams will also be highlighted and discussed.
The purpose of this laboratory is to become successful at applying the principles of structural geology for both, interpreting surface and subsurface structural and geologic relations, stress and strain regimes, and solving structural problems, concerning geographic regions that expose a rock record of igneous, metamorphic, and sedimentary events, folding and faulting, and surface erosion.
II. MEASURING THE ATTITUDE OF ROCK UNITS
Attitude is the spatial orientation of planar rock structures. Two aspects of attitude are needed to constrain a rock unit or surface orientation in three- dimensional space: 1) Strike and 2) Dip. Strike is the compass bearing of a line formed by the intersection of a horizontal plane and the (inclined) plane of the layered rock feature. Strike can be expressed as either a quadrant or an azimuth bearing. Dip is the angle between the horizontal plane and the planar rock unit or feature. Dip direction is always down the inclined plane and is perpendicular to the strike. Strike and dip are drawn on geologic maps as a T-like symbol the long segment is the strike; the short segment the dip. A number nest to the short segment represents the dip angle. Geologists measure attitude with a compass (strike) and an inclinometer (dip).
A. Geologic Map Symbols
Geologic symbols are used on geology maps to indicate one or more characteristics of the rock formation at the point on the map that they (the symbols) are placed. Some commonly used map symbols are found in the information pages on Canvas (you will refer to these symbols for interpreting and making geologic maps, cross-sections, and block diagrams). Map symbols indicate 1) attitude (e.g. strike and dip of either, bedding or foliation), 2) formation contacts, 3) fault lines (rock type, location, and planar orientation), 4) fold axes (type, location, and their limb orientations), and 5) rock formation information (type, name, and age). You will need to be able to recognize and interpret these symbols while working on geologic maps and diagrams.
B. Major Types of Geologic Structures
Mapable rock units are called formations. Locations where rock formations are exposed at the earths surface are called outcrops. Undisturbed rock formations such as sedimentary beds and lava flows are typically horizontal and planar in spatial orientation. However, shifting tectonic plates produce a variety of stresses in the crust that will, over time, cause crustal deformation such as uplift, tilting, erosion, faulting, and folding of formations. Faults and folds exposed at the earths surface in outcrops have unique structural characteristics that can be recorded, mapped, identified, categorized, and analyzed. Carefully study the major structural features listed and described in the information pages on Canvas. You will get to analyze these structures in Part II. Three-dimensional visualization of folds and faults are found on the web link at http://reynolds.asu.edu/blocks/menulist.htm. At this web site, you to be able to interactively manipulate the fold and fault blocks.
C. Structure Vocabulary – Define these structural terms below
1. Outcrop –
2. Formation –
3. Strike –
4. Dip –
5. Contact –
6. Anticlines –
7. Synclines –
8. (Fold) Plunge –
9. Footwall –
10. Hanging wall –
11. Normal Fault –
12. Reverse Fault –
13. Thrust Fault –
14. Strike-Slip Fault –
15. Slickensides –
III. 3D GEOLOGIC BLOCK DIAGRAMS AND MAPS
Three-dimensional geologic block diagrams are scaled-down, abstract, simple representations, or models of Earth’s crustal rock structures, which include 1) formations, 2) unconformities, 3) faults, 4) folds, and 5) topography. Block diagrams are a 3-dimensional composite of both, a geologic map (horizontal map-view) and geologic cross-sections (vertical side-views). The key to successfully completing the block diagrams lies in visualizing the 2-D representations as 3-D structure.
STRIKE AND DIP BED AND BLOCK EXERCISES1. Estimate and record the strike and dip for the formations here:
2. Estimate and record the strike and dip for the formations here:
3. The Block Diagram below has a 60° The dip direction must be determined from the age of the layers (1 oldest, 3 youngest). Estimate and record the strike and dip for the formations here:
IV. VISUALIZING HOW STRESSES DEFORM ROCKS
A. Stress in everyday objects and actions. Place checks in all the boxes that describe the stress involved in each object and action described below.
Object or Action Confining Pressure Directed Pressure Compression Tension Shear
1. A cardboard box collapses when you sit on it
2. An unopened bottle of soft drink (soda, pop).
3. You stretch out a rubber band by pulling its ends apart
4. You rub your hands together, and back and forth, to keep warm
B. Stress in the Geosphere. Think about how tectonic plates deform along convergent, divergent, and transform plate boundaries. Describe what type of stress (tension, compression, or shear) is shown by each image below.1. __________________________
2. __________________________
3. __________________________
4. __________________________
5. __________________________
6. __________________________
1. The examples of deformation above are primarily caused by directed stresses that are pressing on rocks in the horizontal dimension. What kinds of stress can you think of that are pushing or pulling on rocks in the vertical dimension, and what kind of deformation do they cause or aid?
C. Name each type of structure shown in the block diagrams below. The surface maps and block diagrams are only partway finished. The formations are numbered from oldest to youngest (1 being oldest). Normally, you would draw in the rest of the map/block, but since were online, I wont require that because youd also need a scanner.
1. __________________________2. __________________________
3. __________________________
4. __________________________
5. __________________________
6. __________________________
7. __________________________
8. __________________________
9. __________________________
10. __________________________
11. __________________________
12. __________________________
13. __________________________
V. Real World Example
Nevada Fault Analysis: The orthoimages below was acquired about 7 km east of Las Vegas, Nevada. The Nevada Geological Survey has determined that faulting occurred here 11-6 Ma. Normally you would be required to draw the fault line on the map, but since were online, you only need to answer the questions below.1. What kind(s) of fault(s) do you see on the map above. Use the mountain/land colors (white) as a guide.
2. Based on the type of fault you identified, what kind of stress was this Las Vegas region experiencing 11-6 million years ago (when the faults formed)?
3. And why did the faults form instead of folds?
VI. STRUCTURAL GEOLOGY LABORATORY REFLECTION
Directions: Write a reflection of the lab activity, explaining its purpose, the methods used, the results obtained, and a brief personal reflection of what you enjoyed and learned about doing this lab
1. What was the purpose of this lab? What did you actually discover and learn during this lab?
2. What did you enjoy most about this lab? Also, what was challenging or thought-provoking?
RUBRIC
Excellent Quality
95-100%
Introduction 45-41 points
The background and significance of the problem and a clear statement of the research purpose is provided. The search history is mentioned.
Literature Support
91-84 points
The background and significance of the problem and a clear statement of the research purpose is provided. The search history is mentioned.
Methodology
58-53 points
Content is well-organized with headings for each slide and bulleted lists to group related material as needed. Use of font, color, graphics, effects, etc. to enhance readability and presentation content is excellent. Length requirements of 10 slides/pages or less is met.
Average Score
50-85%
40-38 points
More depth/detail for the background and significance is needed, or the research detail is not clear. No search history information is provided.
83-76 points
Review of relevant theoretical literature is evident, but there is little integration of studies into concepts related to problem. Review is partially focused and organized. Supporting and opposing research are included. Summary of information presented is included. Conclusion may not contain a biblical integration.
52-49 points
Content is somewhat organized, but no structure is apparent. The use of font, color, graphics, effects, etc. is occasionally detracting to the presentation content. Length requirements may not be met.
Poor Quality
0-45%
37-1 points
The background and/or significance are missing. No search history information is provided.
75-1 points
Review of relevant theoretical literature is evident, but there is no integration of studies into concepts related to problem. Review is partially focused and organized. Supporting and opposing research are not included in the summary of information presented. Conclusion does not contain a biblical integration.
48-1 points
There is no clear or logical organizational structure. No logical sequence is apparent. The use of font, color, graphics, effects etc. is often detracting to the presentation content. Length requirements may not be met
You Can Also Place the Order at www.collegepaper.us/orders/ordernow or www.crucialessay.com/orders/ordernow Recognizing Folds and Faults Lab Report
Recognizing Folds and Faults Lab Report