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Rock types and structures found on different continents were very similar or even identical, such as in the US and western Europe. This strongly suggested that the rocks were connected in the same location at some time in the past.

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Kyla Klocko

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Do fossils and rocks support the hypothesis of continental drift?

Yes, fossils and rocks support the hypothesis of continental drift. Matching plant and animal fossils found on different continents suggest they were once part of the same landmass. Rocks with similar ages and compositions found across continents also provide evidence for the movement of these landmasses over time.


How does rocks support the continental drift?

Rocks help support the theory of continental drift through evidence such as similar rock formations and fossils found on different continents, matching up when the continents were once part of the same landmass. Additionally, the alignment of magnetic minerals in rocks provides further evidence of past positions of continents as they moved over the Earth's surface.


What rocks make up continental drift?

Lithosprehe


What kind of rock makes up the continental drift?

Lithospheric rocks, (Basaltic and Granitic rocks)


Which one of the following pieces of evidence did Wegener use to support his theory of continental drift?

the age of the rocks in the sea floor is all the same


Why was continental drift more widely accepted after the discovery of seafloor spreading?

so basically the theory of continental drift, no one believed it. the idea that the continents were moving was just an hypothesis made by weigner. seafloor spreading made this hypothesis make sense.


The presence of the same on several continents supports the idea of continental drift?

The presence of the same fossils or geological formations on different continents can provide evidence to support the theory of continental drift. This suggests that the continents were once connected and have since drifted apart over geological time scales.


What evidence at first for the hypothesis of continental drift and later for the theory of plate tectonics?

The initial evidence for the hypothesis of continental drift, proposed by Alfred Wegener, included the complementary shapes of continental coastlines, particularly South America and Africa, as well as fossil correlations and geological similarities across continents. Later, the theory of plate tectonics gained support from the discovery of mid-ocean ridges, the pattern of seismic activity along tectonic boundaries, and the age of ocean floor rocks, which demonstrated seafloor spreading. Additionally, paleomagnetic data revealed the historical movement of continents, providing further validation for the dynamic nature of Earth's lithosphere.


How are fossils rocks and the theory of continental drift connected?

Fossils, rocks, and the Theory of continental drift are all connected because when the continents moved apart from each other, the spreading actually moves the rocks and fossils to another area, resulting in rocks that fit perfectly together but were separated and many similar fossils in different areas. hOPE IT HELPS ;)


How did the study of paleomagnetism help prove wegener's hypothesis?

Before discovering that rocks are imprinted with the direction of magnetic orientation that exists at the time of their creation, no proof existed to confirm Wegener's hypothesis. When rocks were examined from both sides of the Mid-Ocean Ridge, the magnetic orientations were found to be mirror images of each other, indicating that the seafloor was spreading outward, and therefore pushing the continents apart.


How do dimestive rocks strata support the theory of continental drift?

Digestive rocks strata contain evidence of the Earth's past magnetic field orientation. By studying these magnetic patterns, scientists can determine the original location of the rock from when it was formed. This data supports the theory of continental drift by showing that continents were once joined together and have since moved apart.


The study of paleomagnetism was key in proving wegener's hypothesis because?

it provided evidence for the movement of tectonic plates over time by showing that magnetic minerals in rocks align with the Earth's magnetic field at the time of their formation. This helped support Wegener's theory of continental drift by showing that continents were once joined as a single landmass and have since moved apart.