Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download PowerPoint Presentation - The Interior of the Earth
Document related concepts
Deep sea community wikipedia , lookup
Large igneous province wikipedia , lookup
Tectonic–climatic interaction wikipedia , lookup
Magnetotellurics wikipedia , lookup
History of geomagnetism wikipedia , lookup
Spherical Earth wikipedia , lookup
History of Earth wikipedia , lookup
History of geology wikipedia , lookup
Age of the Earth wikipedia , lookup
Future of Earth wikipedia , lookup
Schiehallion experiment wikipedia , lookup
Transcript
The Interior of the Earth I. Studying the Earth’s Interior A. Scientists study the structure of the earth’s interior using seismic waves. B. There are different types of seismic waves: 1. Surface waves roll along the surface of the earth as swells 2. Waves that penetrate the interior of the earth: Primary (P-waves) move quickly, can penetrate both liquids and solids Secondary (S-waves) can penetrate solids, not liquids C. P-waves and S-waves are used to determine the composition and structure of the earth’s interior. Changes in wave direction and speed indicate changes in composition and physical properties (temperature, state of matter) II. Characteristics of Earth’s Interior A. Activity inferred from seismic studies: Liquid and plastic layers are convective: due to heat escaping from the core through the mantle. material moves from high heat (low density)to low heat (high density). as this occurs in the mantle it causes lithosphere to glide. II. Characteristics of Earth’s Interior B. Physical Properties inferred from seismic studies. 1. Inner Core: state of matter - solid composition - iron depth - 5150-6370 km (3219-3981 miles) temperature - 6300-6500 °C pressure - 3.2-3.8 million atm density - 12.7-13.0 g/cm3 % of Earth’s mass - 1.7% II. Structure of Earth’s Interior 2. Outer Core: state of matter - molten (liquid) composition - iron, small amounts of nicke depth - 2890-5150 km (1806-3219 miles) temperature - 5000-6300 °C pressure - 1.5-3.2 million atm density - 9.9-12.7 g/cm3 % of Earth’s mass - 30.8% 3. Lower Mantle: state of matter - stiff plastic (solid) composition - silicon, magnesium, oxygen, iron, aluminum depth - 650-2890 km (406-1806 miles) temperature - 2500-5000 °C pressure - 0.4-1.5 million atm density - 3.3-9.9 g/cm3 % of Earth’s mass - 49.2% 4. Upper Mantle (includes transition zone & asthenosphere): state of matter - soft plastic (liquid) composition - silicon, magnesium, oxygen, iron, aluminum depth - 50-650 km (6-406 miles) temperature - 5000-2500 °C pressure - 0.1-0.4 million atm density - 3.3-3.0 g/cm3 % of Earth’s mass - 17.8% 5. Lithosphere and Crust (includes tectonic plates): state of matter - brittle (solid) composition - silicon, magnesium, oxygen, iron, aluminum, sodium, potassium depth - 0-50 km (0-31miles) temperature - 0-500 °C pressure - 1 – 100,000 atm The remaining 0.1% of the earth’s mass is density - 0-3.0 g/cm3 living material. % of Earth’s mass - 0 .4% QuickTime™ and a decompressor are needed to see this picture.
