5 Must Know Facts For Your Next Test

1. Basaltic magma is usually formed at depths of around 30 to 50 kilometers within the Earth's mantle, where temperatures exceed 1000°C.
2. It has a low silica content (typically around 45-55%), which contributes to its lower viscosity compared to other types of magma.
3. Basaltic magma is responsible for many of the world's volcanoes, particularly those associated with divergent plate boundaries and oceanic hotspots.
4. When basaltic magma erupts, it often leads to effusive eruptions that produce lava flows rather than explosive volcanic activity.
5. The cooling of basaltic magma results in the formation of basalt rock, which is one of the most common igneous rocks on Earth.

Review Questions

• How does the composition of basaltic magma influence its behavior during volcanic eruptions?
  • The composition of basaltic magma, characterized by low viscosity and lower silica content, allows it to flow easily during eruptions. This property leads to effusive eruptions, where lava can travel over long distances and spread out in thick layers, rather than resulting in explosive activity. The high temperatures associated with basaltic magma further enhance its fluidity, allowing for relatively gentle volcanic outpourings.
• Discuss the role of basaltic magma in plate tectonics and its relation to volcanic activity at mid-ocean ridges.
  • Basaltic magma plays a crucial role in plate tectonics as it is commonly produced at mid-ocean ridges where tectonic plates are diverging. As plates pull apart, the decrease in pressure allows mantle material to partially melt, forming basaltic magma that rises to fill the gap. This results in continuous volcanic activity at these ridges, contributing to seafloor spreading and the formation of new oceanic crust composed primarily of basalt.
• Evaluate the significance of basaltic magma in understanding Earth's geological processes and its implications for assessing volcanic hazards.
  • Basaltic magma is significant in understanding Earth's geological processes as it provides insights into mantle dynamics and the formation of oceanic crust. Its predictable behavior during eruptions allows scientists to assess volcanic hazards effectively. By studying the composition and eruption styles associated with basaltic magma, researchers can better forecast volcanic activity and mitigate risks for populations living near active volcanoes, enhancing public safety and preparedness.

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