The Earth's interior is complex and dynamic, significantly influencing our planet.
Earth consists of four layers: crust, mantle, outer core, and inner core.
Each layer has distinct physical states, chemical compositions, and temperatures.
The crust is the thinnest, comprising continental and oceanic crust.
Mainly composed of silica-rich minerals like feldspar and quartz.
Thickness varies from a few kilometers under oceans to up to 70 kilometers under continents.
Lies beneath the crust, extending to 2,900 kilometers deep.
Composed of silicate minerals such as pyroxenes and olivine.
Exhibits semi-solid behavior due to high pressure and temperature.
Mantle convection currents drive plate tectonics.
Located between 2,900 to 5,150 kilometers deep.
Composed mainly of molten iron and nickel.
Generates Earth's magnetic field through geodynamic processes.
Resides at Earth's center, about 5,150 kilometers deep.
Solid state composed of iron and nickel due to immense pressure.
Extremely hot, with temperatures over 5,700 degrees Celsius.
Predominantly composed of oxygen, silicon, iron, magnesium, and sulfur.
These elements form various minerals and compounds defining Earth's structure.
Mantle convection drives plate tectonics, causing continents, oceans, earthquakes, and volcanoes.
The outer core's magnetic field protects Earth from solar radiation and influences migratory species.
Interactions within Earth's interior shape the dynamic nature of our planet.
Understanding Earth's interior is crucial for comprehending its history and ensuring a sustainable future.
Sorry for the inconvenience. Coming soon!
Sign in to your account