Earth's Hidden Secrets: A Layer-by-Layer Exploration | Geology Lecture | скачать в хорошем качестве

Earth's Hidden Secrets: A Layer-by-Layer Exploration | Geology Lecture |

The Earth has a layered structure, much like an onion, with each layer having distinct chemical and physical properties. These layers can be defined in two main ways: by their chemical composition and by their mechanical properties. Chemical Composition Layers: 👉🏻 Crust: This is the outermost and thinnest layer of the Earth, ranging from about 5 to 70 kilometers in thickness. 1. Oceanic Crust: Thinner (5-10 km), denser, and primarily composed of basalt. 2. Continental Crust: Thicker (25-70 km), less dense, and mainly composed of granite. The crust is relatively cold and rigid and is made up of various types of rocks, including igneous, metamorphic, and sedimentary rocks. 👉🏻 Mantle: Located beneath the crust, the mantle is the thickest layer, extending down to about 2,900 kilometers. 1. It is made of hot, dense silicate rocks rich in iron and magnesium. 2. Temperatures in the mantle range from about 500°C at the crust boundary to over 4,000°C near the core. 3. While mostly solid, the mantle behaves like a very viscous fluid over geological timescales, allowing for slow convection currents. 👉🏻Core: The Earth's innermost layer, the core, is divided into two parts: 1. Outer Core: A liquid layer about 2,260 kilometers thick, primarily composed of iron and nickel. The movement of this molten iron is believed to generate Earth's magnetic field. Temperatures range from approximately 4,400°C to 6,100°C. 2. Inner Core: A solid sphere with a radius of about 1,220 kilometers, also mainly composed of iron and nickel. Despite the high temperatures (around 5,500°C to 6,000°C), immense pressure keeps it in a solid state. Recent studies suggest the inner core's structure and rotation are more dynamic than previously thought. Mechanical Property Layers (Rheological Layers): Based on how the layers behave mechanically (their response to stress), the Earth can be divided into: A. Lithosphere: This rigid outer layer includes the entire crust and the uppermost part of the mantle. It is broken into tectonic plates that move and interact, causing earthquakes, volcanic activity, and mountain formation. B. Asthenosphere: Located beneath the lithosphere in the upper mantle, this layer is more ductile and weaker than the lithosphere. The lithospheric plates move and slide over the asthenosphere. C. Mesospheric Mantle (Lower Mantle): Extending from the bottom of the asthenosphere to the top of the outer core, this layer is more rigid than the asthenosphere due to increased pressure. D. Outer Core: As described above, a liquid layer. E. Inner Core: As described above, a solid sphere. These two ways of defining Earth's layers provide a comprehensive understanding of our planet's internal structure and dynamics. The chemical composition determines the materials that make up each layer, while the mechanical properties describe how these layers behave and interact. #upsc #civilservices #statepcs #pcs #ssccgl #ssc #bankingexams #railwaygroupd #policebharti #sscgd #sscchsl #Geography #GeographyLovers #worldgeographyknowledges #WorldGeography #GeographyMatters #geographyfacts #geographymapping #GeoFacts #LearnGeography #Geographer #ExploreTheWorld #geographytrivia #Maps #CountryFacts #EarthScience #ourplanet #geographylecture #earthstructure #earthlayers #Crust #mantle #lithosphere #Geology #EarthScience #Planetarth #Science #Education #LearnAboutEarth #TectocPlates #platetectonics #GeologicalForces #EarthDynamics #earthquakes #magneticfield #SeismicScience #GeophysicalLayers