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Premium member Presentation Transcript Crustal Deformation : Crustal DeformationTake-Away Points: Take-Away Points Structures in the earth have practical implications Basic terms for earth structures Small structures provide clues to much larger structures The earth’s crust is floating on the denser mantle beneath Gentle uplifts and downwarps affect the interiors of continentsEconomic Consequences of Geologic Structures: Economic Consequences of Geologic Structures Tracing Coal Seams, Aquifers, etc. Ore Deposits are often localized along faults and folds Petroleum Traps 1. Structures in the earth have practical implicationsThe Big Picture: The Big Picture 1. Structures in the earth have practical implicationsAnticlines and Synclines: Anticlines and Synclines 2. Basic terms for earth structuresMonoclines and Homoclines: Monoclines and Homoclines 2. Basic terms for earth structuresAxial Plane: Axial Plane 2. Basic terms for earth structuresHow Fast Can Folds Form?: How Fast Can Folds Form?Which Way was Up?: Which Way was Up? Sedimentary Structures are governed by: Gravity Exposure to the Surface They all have a “right way up” 3. Small structures provide clues to much larger structuresFoliation: Foliation Foliation is a sheetlike structure that forms when rocks are deformed. 3. Small structures provide clues to much larger structuresFoliation: Foliation Flattening Grain Rotation Solution New Minerals Partial Melting Shearing 3. Small structures provide clues to much larger structuresFoliation: Foliation In every case, the foliation is: In the direction of least resistance at right angles to the direction of greatest compression. 3. Small structures provide clues to much larger structuresFolds and Foliation: Folds and Foliation On a small scale (microscopic to centimeters), foliation forms by a variety of mechanisms, but always at right angles to the direction of greatest compression On a large scale (centimeters to kilometers), rocks fold. The axial plane of the fold is also at right angles to the direction of greatest compression 3. Small structures provide clues to much larger structuresFolds and Foliation: Folds and Foliation 3. Small structures provide clues to much larger structuresThe Importance of Minor Folds : The Importance of Minor Folds 3. Small structures provide clues to much larger structuresHow Geologists Use These Clues : How Geologists Use These Clues Here's an outcrop that might be seen in the field. 3. Small structures provide clues to much larger structuresHow Geologists Use These Clues : How Geologists Use These Clues Picture the axial plane of the fold as parallel to the foliation. The other side of the fold is roughly a mirror image of the side we can see. 3. Small structures provide clues to much larger structuresHow Geologists Use These Clues : How Geologists Use These Clues We can mentally fill out the sketch to get an idea of the shape of the fold. Note that we still have no idea how big the fold is, only what kind it is. 3. Small structures provide clues to much larger structuresWhat if we did it the other way?: What if we did it the other way? 3. Small structures provide clues to much larger structuresIsostasy : Isostasy 4. The earth’s crust is floating on the denser mantle beneathThe Airy Model: The Airy Model 4. The earth’s crust is floating on the denser mantle beneathThe Pratt Model: The Pratt Model 4. The earth’s crust is floating on the denser mantle beneathBoth Ideas are Correct at Times: Both Ideas are Correct at Times 4. The earth’s crust is floating on the denser mantle beneathHow Isostasy Works: How Isostasy Works 4. The earth’s crust is floating on the denser mantle beneathIsostatic Rebound in Canada : Isostatic Rebound in Canada 4. The earth’s crust is floating on the denser mantle beneathIsostatic Rebound in Scandinavia : Isostatic Rebound in Scandinavia 4. The earth’s crust is floating on the denser mantle beneathDomes and Basins: Domes and Basins 5. Gentle uplifts and downwarps affect the interiors of continentsDomes and Basins: Domes and Basins 5. Gentle uplifts and downwarps affect the interiors of continentsDomes and Basins: Domes and Basins 5. Gentle uplifts and downwarps affect the interiors of continentsTake-Away Points: Take-Away Points Structures in the earth have practical implications Basic terms for earth structures Small structures provide clues to much larger structures The earth’s crust is floating on the denser mantle beneath Gentle uplifts and downwarps affect the interiors of continents You do not have the permission to view this presentation. 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Crustal Deformation vidya2k7 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 7 Category: Science & Tech.. License: All Rights Reserved Like it (0) Dislike it (0) Added: February 07, 2012 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Crustal Deformation : Crustal DeformationTake-Away Points: Take-Away Points Structures in the earth have practical implications Basic terms for earth structures Small structures provide clues to much larger structures The earth’s crust is floating on the denser mantle beneath Gentle uplifts and downwarps affect the interiors of continentsEconomic Consequences of Geologic Structures: Economic Consequences of Geologic Structures Tracing Coal Seams, Aquifers, etc. Ore Deposits are often localized along faults and folds Petroleum Traps 1. Structures in the earth have practical implicationsThe Big Picture: The Big Picture 1. Structures in the earth have practical implicationsAnticlines and Synclines: Anticlines and Synclines 2. Basic terms for earth structuresMonoclines and Homoclines: Monoclines and Homoclines 2. Basic terms for earth structuresAxial Plane: Axial Plane 2. Basic terms for earth structuresHow Fast Can Folds Form?: How Fast Can Folds Form?Which Way was Up?: Which Way was Up? Sedimentary Structures are governed by: Gravity Exposure to the Surface They all have a “right way up” 3. Small structures provide clues to much larger structuresFoliation: Foliation Foliation is a sheetlike structure that forms when rocks are deformed. 3. Small structures provide clues to much larger structuresFoliation: Foliation Flattening Grain Rotation Solution New Minerals Partial Melting Shearing 3. Small structures provide clues to much larger structuresFoliation: Foliation In every case, the foliation is: In the direction of least resistance at right angles to the direction of greatest compression. 3. Small structures provide clues to much larger structuresFolds and Foliation: Folds and Foliation On a small scale (microscopic to centimeters), foliation forms by a variety of mechanisms, but always at right angles to the direction of greatest compression On a large scale (centimeters to kilometers), rocks fold. The axial plane of the fold is also at right angles to the direction of greatest compression 3. Small structures provide clues to much larger structuresFolds and Foliation: Folds and Foliation 3. Small structures provide clues to much larger structuresThe Importance of Minor Folds : The Importance of Minor Folds 3. Small structures provide clues to much larger structuresHow Geologists Use These Clues : How Geologists Use These Clues Here's an outcrop that might be seen in the field. 3. Small structures provide clues to much larger structuresHow Geologists Use These Clues : How Geologists Use These Clues Picture the axial plane of the fold as parallel to the foliation. The other side of the fold is roughly a mirror image of the side we can see. 3. Small structures provide clues to much larger structuresHow Geologists Use These Clues : How Geologists Use These Clues We can mentally fill out the sketch to get an idea of the shape of the fold. Note that we still have no idea how big the fold is, only what kind it is. 3. Small structures provide clues to much larger structuresWhat if we did it the other way?: What if we did it the other way? 3. Small structures provide clues to much larger structuresIsostasy : Isostasy 4. The earth’s crust is floating on the denser mantle beneathThe Airy Model: The Airy Model 4. The earth’s crust is floating on the denser mantle beneathThe Pratt Model: The Pratt Model 4. The earth’s crust is floating on the denser mantle beneathBoth Ideas are Correct at Times: Both Ideas are Correct at Times 4. The earth’s crust is floating on the denser mantle beneathHow Isostasy Works: How Isostasy Works 4. The earth’s crust is floating on the denser mantle beneathIsostatic Rebound in Canada : Isostatic Rebound in Canada 4. The earth’s crust is floating on the denser mantle beneathIsostatic Rebound in Scandinavia : Isostatic Rebound in Scandinavia 4. The earth’s crust is floating on the denser mantle beneathDomes and Basins: Domes and Basins 5. Gentle uplifts and downwarps affect the interiors of continentsDomes and Basins: Domes and Basins 5. Gentle uplifts and downwarps affect the interiors of continentsDomes and Basins: Domes and Basins 5. Gentle uplifts and downwarps affect the interiors of continentsTake-Away Points: Take-Away Points Structures in the earth have practical implications Basic terms for earth structures Small structures provide clues to much larger structures The earth’s crust is floating on the denser mantle beneath Gentle uplifts and downwarps affect the interiors of continents