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Asthenosphere

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Which of earths mechanical layers is easily deformed?

The asthenosphere, located in the upper mantle, is easily deformed due to its semi-molten state. This layer allows tectonic plates to move on the ductile rock beneath them.


What is the difference between compositional and mechanical layers of the earth?

Compositional layers refer to the Earth's division based on the materials that make up each layer (crust, mantle, core), while mechanical layers classify the Earth based on how easily each layer can flow or deform (lithosphere, asthenosphere, mesosphere, outer core, inner core). The compositional layers focus on the materials present, while the mechanical layers focus on the physical properties and behavior of each layer.


What are folded rocks?

When sedimentary rocks are first laid down their layers (bedding) are tangential to the earths surface (essentially they look flat). They remain like this unless two of the earths continental plates on which the flat bedded rocks are deposited crash together. When they crash together, the layers are squashed horizontally and become deformed as a result. Frequently this deformation causes the layers to fold (like scrunching paper) to accommodate and the result is folded rocks.


What is the difference between compositional layers and mechanical layers of the earth?

Compositional layers refer to the different layers of the Earth based on their chemical composition, such as the crust, mantle, and core. Mechanical layers, on the other hand, are based on the physical properties and how they behave under stress, like the lithosphere, asthenosphere, and mesosphere. The crust, mantle, and core are compositional layers, while the lithosphere, asthenosphere, and mesosphere are mechanical layers.


Why do earth scientists use two different ways of classifying the earths layers?

Earth scientists use two different ways of classifying the Earth's layers because they have distinct properties and characteristics. The chemical composition provides information about the materials that make up the layers, while the mechanical properties inform us about how the layers behave under stress and pressure. Both classifications are important for understanding the Earth's structure and dynamics.