Interior Of The Earth (Advanced)
Interior Of The Earth
Sources Of Information About The Interior
Due to inaccessibility, the Earth's interior is studied using direct and indirect methods.
Direct Sources
Include rock samples from mining and drilling, as well as volcanic eruptions which bring up materials from deep layers.
Indirect Sources
Include analysis of seismic waves, gravitational force, magnetic field, and meteorites to infer internal composition and structure.
Earthquake
Earthquakes are sudden movements caused by the release of energy in the Earth's crust. The point inside the crust where it originates is called the focus, and the point on the surface is called the epicentre.
Why Does The Earth Shake?
Shaking is caused by stress accumulation and release along faults due to tectonic activity.
Earthquake Waves
Three types of waves: Primary (P) waves, Secondary (S) waves, and Surface (L) waves. P-waves travel fastest and through all media, S-waves only through solids.
Propagation Of Earthquake Waves
Speed and direction change with density and state of layers. Waves bend or reflect at boundaries, revealing internal structure.
Emergence Of Shadow Zone
Certain areas receive no seismic waves due to refraction or blockage (e.g., S-wave shadow zone confirms the liquid outer core).
Types Of Earthquakes
- Tectonic: Caused by plate movements.
- Volcanic: Due to volcanic activity.
- Collapse: Caused by collapse of underground mines.
- Explosion: Caused by nuclear or chemical explosions.
Measuring Earthquakes
Measured using seismographs. Magnitude: Richter Scale; Intensity: Mercalli Scale.
Effects Of Earthquake
Damage to life and property, landslides, tsunamis, fire, and changes in landform.
Frequency Of Earthquake Occurrences
Most earthquakes occur along plate boundaries. The Pacific Ring of Fire is the most seismically active region.
Structure Of The Earth
The Crust
The outermost solid layer, 5–70 km thick. Oceanic crust is thinner and denser than continental crust.
The Mantle
Extends to a depth of ~2,900 km. Upper part is partially molten (asthenosphere), allowing convection currents.
The Core
Composed mainly of nickel and iron. Divided into liquid outer core and solid inner core. Responsible for Earth's magnetic field.
Volcanoes And Volcanic Landforms
Volcanoes
Openings in the Earth's crust that allow molten material, ash, and gases to escape.
Shield Volcanoes
Broad and gently sloping, built by low-viscosity lava (e.g., Mauna Loa).
Composite Volcanoes
Steep-sided, formed from alternate layers of lava and ash (e.g., Mount Fuji).
Caldera
Large depression formed by collapse of a volcano after eruption.
Flood Basalt Provinces
Regions covered by extensive lava flows (e.g., Deccan Traps in India).
Mid-Ocean Ridge Volcanoes
Volcanoes formed along oceanic ridges due to sea-floor spreading.
Volcanic Landforms
Surface features shaped by volcanic activity including cones, domes, and lava plateaus.
Intrusive Forms
Formed when magma cools and solidifies below the surface, shaping underground rock structures.
Batholiths
Huge masses of intrusive igneous rock formed deep in the crust.
Lacoliths
Dome-shaped intrusions that push overlying layers upward.
Lapolith, Phacolith And Sills
Different shapes of intrusions based on orientation and space of solidification.
Dykes
Vertical intrusions that cut across rock layers and often serve as channels for magma.