The Related Link shows all the formations it took to create the seven continents we know.
Approximately 300 million years ago, the Earth's continents were joined together in a supercontinent known as Pangaea. Over time, Pangaea split apart to form the continents as we recognize them today.
Approximately 335 million years ago, all the Earth's continents were joined together in a supercontinent called Pangaea. Over time, due to the movement of tectonic plates, Pangaea began to break apart, leading to the formation of the continents as we know them today.
250 million years ago, the Earth's landmasses were joined together to form a supercontinent called Pangaea. Pangaea was a massive landmass consisting of almost all of today's continents fused together. The continents were surrounded by a single vast ocean known as Panthalassa.
Wegener noticed that the coastlines of continents seemed to fit together like puzzle pieces, and that similar fossils and rock formations were found on opposite sides of the Atlantic Ocean. He proposed the theory of continental drift, suggesting that the continents were once connected in a supercontinent called Pangaea and had since drifted apart.
Pangaea was a supercontinent that existed about 335 million years ago, and it included almost all of Earth's landmasses joined together. It had a distinctive single landmass configuration, with some of the current continents as we know them today joined into one large landmass.
Scientists believe that at one time, the entire land mass of the world was joined together. When looking at a flat map of the earth, the shape of the continents look like they would fit together if they were linked.
Approximately 300 million years ago, the Earth's continents were joined together in a supercontinent known as Pangaea. Over time, Pangaea split apart to form the continents as we recognize them today.
Scientists believe that at one time, the entire land mass of the world was joined together. When looking at a flat map of the earth, the shape of the continents look like they would fit together if they were linked.
Approximately 335 million years ago, all the Earth's continents were joined together in a supercontinent called Pangaea. Over time, due to the movement of tectonic plates, Pangaea began to break apart, leading to the formation of the continents as we know them today.
250 million years ago, the Earth's landmasses were joined together to form a supercontinent called Pangaea. Pangaea was a massive landmass consisting of almost all of today's continents fused together. The continents were surrounded by a single vast ocean known as Panthalassa.
Wegener noticed that the coastlines of continents seemed to fit together like puzzle pieces, and that similar fossils and rock formations were found on opposite sides of the Atlantic Ocean. He proposed the theory of continental drift, suggesting that the continents were once connected in a supercontinent called Pangaea and had since drifted apart.
Pangaea was a supercontinent that existed about 335 million years ago, and it included almost all of Earth's landmasses joined together. It had a distinctive single landmass configuration, with some of the current continents as we know them today joined into one large landmass.
The edges of some continents look as if they would fit together like pieces of a puzzle.
Earth's continents are linked by tectonic plate movements. The Earth's crust is divided into several large plates that float on the semi-fluid asthenosphere below. These plates are continuously moving, causing the continents to drift slowly over time. This movement is known as plate tectonics.
Like earth and islands.
no before humans appeared the continents were all smooshed together
The continent pieces fit together as if they where a puzzle. If you look at South America and Africa it seems that they could have once been connected.Fossil evidence in different countries implies that they may have once been joined. The fossils of large birds are the same implying that there was a common ancestor to large flightless modern birds that are separated on different continents.Mid ocean ridges are spreading the ocean floors apart. The age of the rocks on the bottom of the ocean shows that the plates that the continents are on are moving apart.Finally, the most compelling evidence is to do with the magnetism of the rocks. As the lava cools the ferromagnetic material in some rocks lines up with the Earth's magnetic poles. When these rocks move they are no longer lined up to the Earth's current magnetic poles, they produce anomalies in the magnetic readings. These rocks reveal their latitude of where they were when they cooled.