5 Must Know Facts For Your Next Test

1. Sea-floor spreading occurs at mid-ocean ridges, where magma rises from the mantle to create new oceanic crust as tectonic plates diverge.
2. As new crust forms, older crust is pushed away from the ridge, resulting in a symmetrical pattern of age distribution on either side of the ridge.
3. The rate of sea-floor spreading can vary, typically ranging from a few centimeters to several centimeters per year.
4. Magnetic anomalies on the sea floor provide evidence for sea-floor spreading, showing symmetrical patterns of magnetic polarity reversals over time.
5. Sea-floor spreading plays a crucial role in the rock cycle by facilitating the recycling of oceanic crust and contributing to geological features such as earthquakes and volcanic activity.

Review Questions

• How does sea-floor spreading contribute to the movement of tectonic plates?
  • Sea-floor spreading directly contributes to the movement of tectonic plates by generating new oceanic crust at mid-ocean ridges. As magma rises and solidifies at these ridges, it creates new material that pushes existing crust away from the ridge. This mechanism drives the lateral movement of tectonic plates, causing them to diverge or move apart, while also influencing other geological processes such as subduction and continental drift.
• Evaluate the significance of magnetic anomalies in supporting the theory of sea-floor spreading.
  • Magnetic anomalies are significant in supporting the theory of sea-floor spreading as they reveal patterns of magnetic polarity reversals recorded in oceanic crust. These patterns are symmetrical about mid-ocean ridges, indicating that new crust is created at these locations and pushes older crust outward. By analyzing these magnetic stripes, scientists have been able to determine the rate of sea-floor spreading and gain insights into Earth's geological history and plate tectonics.
• Assess the impact of sea-floor spreading on geological features and processes observed on Earth.
  • The impact of sea-floor spreading on geological features and processes is profound, as it plays a key role in shaping Earth's topography and influencing tectonic activity. The creation of mid-ocean ridges leads to volcanic eruptions and hydrothermal vents, while the displacement of oceanic plates contributes to earthquakes along plate boundaries. Additionally, sea-floor spreading affects ocean basin formation and contributes to continental drift, ultimately altering Earth's landscape over geological time scales. This process is vital for understanding how Earth's surface evolves and how various geological phenomena are interconnected.

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