Evidence for Pangaea's existence includes the matching shapes of continents along their Coastlines, similarities in rock formations, fossils of the same species found on different continents, and the alignment of mountain ranges and geological features when continents are pieced back together. Additionally, the distribution of certain plant and animal species suggests that they were once connected on a single landmass.
Pangaea existed during Wegener's time because he proposed the theory of continental drift, suggesting that all the continents were once part of a single landmass that later broke apart. Wegener used evidence such as the fit of the continents, matching rock formations, and similar fossils found on separate continents to support his theory of Pangaea.
The single huge continent that once existed according to the continental drift theory is called Pangaea.
Alfred Wegener called the large supercontinent that once existed Pangaea.
Evidence to support the theory of Pangaea includes the fit of continents like South America and Africa, the distribution of similar fossils and rock formations across continents, and matching mountain ranges and geological structures on different landmasses. Furthermore, the study of plate tectonics has provided additional evidence by explaining how continents have moved over time.
Evidence such as the distribution of fossils, rock formations, and magnetic fields on different continents support the theory of continental drift and the breakup of Pangaea. The matching geological features, such as mountain ranges and coastlines, on opposite sides of the Atlantic Ocean provide further evidence that the continents were once connected. Additionally, the movement of tectonic plates and the ongoing process of plate tectonics help explain the separation of the continents from Pangaea.
Pangaea Supercontinent
Pangaea existed during Wegener's time because he proposed the theory of continental drift, suggesting that all the continents were once part of a single landmass that later broke apart. Wegener used evidence such as the fit of the continents, matching rock formations, and similar fossils found on separate continents to support his theory of Pangaea.
The single huge continent that once existed according to the continental drift theory is called Pangaea.
Alfred Wegener called the large supercontinent that once existed Pangaea.
No,because geologist have evidence that,before Pangaea existed, other supercontinents formed and split apart over billions of years. And the answer is right because i took it out of the Science book!!
Pangaea.
Evidence to prove the existence of the supercontinent Pangaea includes fossil evidence of similar plant and animal species across continents, the matching shapes of coastlines and mountain ranges on different continents, and the distribution of ancient rock formations that line up when continents are fitted together. Additionally, geological evidence such as rock layers and paleoclimatic data also supports the theory of Pangaea's existence.
Evidence to support the theory of Pangaea includes the fit of continents like South America and Africa, the distribution of similar fossils and rock formations across continents, and matching mountain ranges and geological structures on different landmasses. Furthermore, the study of plate tectonics has provided additional evidence by explaining how continents have moved over time.
Evidence such as the distribution of fossils, rock formations, and magnetic fields on different continents support the theory of continental drift and the breakup of Pangaea. The matching geological features, such as mountain ranges and coastlines, on opposite sides of the Atlantic Ocean provide further evidence that the continents were once connected. Additionally, the movement of tectonic plates and the ongoing process of plate tectonics help explain the separation of the continents from Pangaea.
Wegener's evidence for Pangaea included the fit of the continents like a jigsaw puzzle, similar rock formations and fossils on different continents, and matching mountain ranges across continents. Additionally, the distribution of climate-sensitive organisms and glacial deposits provided further support for the theory of continental drift.
the name of the continent that existed 225 million years ago was pangaea
The supercontinent is called Pangea, formed 300 million years ago