Earth Science Chapter 5 Plate Tectonics Big Ideas • Earth’s Interior • Convection and the Mantle • Drifting continents • Sea-floor Spreading • Plate Tectonics Earth’s Interior •How far do you think it is to the center of the Earth? •Almost 4,000 miles! •The deepest mine in the world is only 2 miles • How do you think scientists know about the center of the Earth? • Geologists use 2 main types of evidence to learn about Earth’s interior: –Direct Evidence from rock samples –Indirect evidence from Evidence from Rocks • Humans have drilled holes and extracted rock from depths of 12 miles • Blasts from the Earth have brought rocks from 100 ft to the surface Evidence from Seismic Waves • Earthquakes produce seismic waves • The speed of seismic waves and the path they take show the structure of the planet Three main layers • The three main layers of Earth are the crust, mantle, and the core • These layers differ in size, composition, temperature, and pressure Temperature • The first 20 meters beneath Earth’s crust is cool • After this depth, temperature rises 1 degree Celsius per 40 meters • Heat comes from the molten layer and radioactive substances Pressure •The deeper you go, the higher the pressure •This pressure is equal to that of a swimming pool Pressure Lab Skills Activity • Work with a partner, • Read the directions to the Lab Zone Skills Activity • Create the Data Table on page 129 Crust • Crust is a layer of rock that forms Earth’s outer skin • Crust includes both dry land and ocean floor • Crust is very thin compared to the other layers of Earth, only 5-70 km thick Crust Crust • The crust beneath the ocean is oceanic crust and usually made of basalt • Continental crust consists of rocks such as granite • I was very disappointed in the behavior of some of you on Friday. • That was extremely disrespectful of you to run from the classroom when the bell rang. • You need to remember that I dismiss you and not the bell. • Please take your seat and sit quietly while you wait for class to begin Mantle • The mantle is about 40 km below the surface • It consists of a hot, solid rock • It can be divided into layers • The mantle is about 3000 km thick Mantle Lithosphere • The crust and the uppermost part of the mantle form the lithosphere • It is about 100 km thick • Lithos means “stone” in Greek Lithosphere Asthenosphere • Under increase heat and pressure • Less rigid-soft like tar, but still solid • Asthenes means “weak” in Greek The Lower Mantle • Beneath the asthenosphere the mantle is solid • This material extends to the Earth’s core Lower Mantle The Core • Consists of mostly nickel and iron • Made of two parts, a liquid outer core and solid inner core • Together it is about 3486 km thick • Despite extreme pressure, the outer core is molten surrounding a dense, solid inner core • Evidence suggests that the extreme pressure in the inner core will not allow the solid metal to spread and become liquid Core Core and Magnetic field • Scientists think that movements in Earth’s liquid outer core create Earth’s magnetic field. • This magnetism is what attracts a compass’ needle towards north (it aligns with Earth’s magnetic field) Individually • Complete the section 1 assessment on page 131, including the “writing in science” assignment. If you do not complete these in class, they will become your homework and will be due tomorrow. Make a Chart Types of Heat Transfer Radiation Explanation/definition Conduction Explanation/Definition Convection Explanation/Definition When you complete the chart • Read the sections “Convection Currents”, and “Convection Currents in Earth.” • 1. Define Convection Currents • 2. Explain how convection currents work, using a real example • 3. Create an illustration of a convection current Drifting Continents • http://www.youtube.com/watch?v=WaUk94A dXPA Continental Drift • Prior to Columbus, mapmakers did not know about the new worlds • Shortly after they began to notice how the coastlines of several countries seemed to fit together like a puzzle Continental drift • Early 1900s German Scientist Alfred Wegener made a hypothesis: • All of the continents were once joined together in a single land mass and have since drifted apart. The Origin of Continents and Oceans • Wegener gathered evidence from different scientific fields to support his ideas about continental drift. • He studied land features, fossils, and evidence of climate change Write a Book! • Make your own version of Wegner’s book • Use the same title as he did • Read pages 138-138 about the evidence he found • Create a page for each type of evidence • Explain how the evidence supports his hypothesis and include illustrations if appropriate. • Page 1: Title • Page 2: Evidence from land features • Page 3: Evidence from fossils • Page 4: Evidence from climate • Page 5: Conclusion