Planet Earth in Profile

1. Planet Earth in Profile The Layered Interior

2. Objectives • Explore evidence that helps explain Earth’s internal structure. • Outline Earth’s internal layers and discuss some of the evidence leading to their discovery • Introduce the salient properties of Earth’s outer layers, its crust and the underlying mantle • Investigate the processes at work to modify Earth’s surface, creating physical landscapes of great diversity

3. Evidence of Earth’s Internal Structure • Earthquakes • Shaking and trembling of Earth’s surface caused by sudden release of stress within the crust • Seismic waves • Surface waves • Travel along the surface • P-waves (primary waves) • Back-and-forth; Compressional • Travel trough liquids and solids • S-waves (secondary waves • Up-and-down; right angles • Travel through solids only

4. Evidence of Earth’s Internal Structure • Seismic Waves • 0° to 103° • Find P- and S-waves only • 104°-142° • Shadow zone • No P-waves; bend due to higher density of mantle • No S-waves; cannot pass through liquid • 142°-180° • Find P-waves only • No S-waves; cannot pass through liquid

5. Earth’s Internal Layers • Core • Inner core • Solid; Iron (Fe) and Nickel (Ni) • 1220 km (760 mi) radius; 5150 km (3200 mi) depth • Outer core • Liquid; Iron (Fe) and Nickel (Ni) • 2250 km (1400 mi) thick; 2900 km (1800 mi) depth • Mantle • Lower mantle • Solid; Iron (Fe), Magnesium (Mg), Silicon (Si) • 2230 km (1385 mi) • Upper mantle • Solid-plastic-solid; Iron (Fe), Magnesium (Mg), Silicon (Si) • 670 km (415 mi) depth [Insert Fig. 27.5 ]

6. Earth’s Outer Layer • Mohorovicic discontinuity (Moho) • The density has a marked different between the crust and mantle • Earthquake waves speed up when passing from crust to mantle • Indicates mantle is more dense than crust • Made it possible to measure the thickness of the crust • Thickness varies • From 5 km (3 mi) to 40 km (25 mi)

7. Earth’s Outer Layer • Crust • Continental crust • Felsic • Feldspar rich (granitic) • Light colored • Low density (2.8 g/cm3) • Oceanic crust • Mafic • Magenisum (Mg) and iron (Fe) rich (basaltic) • Dark colored • Higher density (3.0 g/cm3) [Insert Fig. 27.7A - felsic] [Insert Fig. 27.7B - mafic ]

8. Earth’s Outer Layer • Lithosphere • Rigid layer • Crust and uppermost mantle • Asthenosphere • Plastic layer; flows readily • Lithospheric Plates • Large, rigid fragments • Move over asthenosphere Insert Fig. 27.8

9. The Crustal Surface • Topographic Relief • Vertical difference between highest and lowest elevation • High relief • Large difference from high to low relief • Low relief • Small difference from high to low relief Insert Fig. 27.10 - low relief

10. The Crustal Surface • Topographic Relief • Vertical difference between highest and lowest elevation • High relief • Large difference from high to low relief • Low relief • Small difference from high to low relief

11. The Crustal Surface • Continental Shields • Large, stable, low relief expanse of land • Old metamorphic, igneous rocks • North American Shield • Canadian (Laurentian) shield

12. The Crustal Surface • Orogenic Belts • Series of linear mountains • Zones of high relief • Weathering • Physical, chemical breakdown of rocks • Erosion • Removal of weathered rocks