Fossil evidence, such as similar plant and animal species found on both continents, as well as rock formations that match up when the continents are reconstructed into a supercontinent called Pangaea, suggest that Africa and America were once connected. Additionally, the discovery of similar geological features, such as mountain ranges and Coastlines, along the western coast of Africa and eastern coast of South America provides further support for this theory.
Evidence for continental drift includes the fit of continents like South America and Africa, similar rock formations and mountain ranges on different continents, and the distribution of fossils that were once found on now widely separated landmasses. These pieces of evidence suggest that the continents were once connected in a single landmass called Pangaea.
Continents fit together like puzzle pieces - the coastlines of continents such as South America and Africa seem to fit together like pieces of a puzzle. Fossil evidence - similar fossils of plants and animals found on continents that are now far apart suggest they were once connected. Rock formations and mountain ranges - similar geological features and rock formations found on continents that are now separated indicate they were once part of the same landmass.
Evidence of continental drift includes the matching shapes of continents, similar fossils found on different continents, and geological features that align across separate continents. These clues suggest that the continents were once joined together in a single landmass called Pangea.
Evidence supporting the existence of a single supercontinent, known as Pangaea, includes the jigsaw-like fit of the continents along their coastlines, similarities in rock formations and mountain ranges across different continents, matching plant and animal fossils found on separate continents, and the alignment of ancient glacial deposits that suggest a single ice cap covering a large landmass. These pieces of evidence support the theory of plate tectonics and continental drift.
Evidence for the theory of continental drift includes the fit of the continental coastlines, matching rock formations and mountain ranges across continents, similar fossil distributions on different continents, and the discovery of mid-ocean ridges and magnetic striping on the ocean floor that suggest seafloor spreading.
Evidence for continental drift includes the fit of continents like South America and Africa, similar rock formations and mountain ranges on different continents, and the distribution of fossils that were once found on now widely separated landmasses. These pieces of evidence suggest that the continents were once connected in a single landmass called Pangaea.
Continents fit together like puzzle pieces - the coastlines of continents such as South America and Africa seem to fit together like pieces of a puzzle. Fossil evidence - similar fossils of plants and animals found on continents that are now far apart suggest they were once connected. Rock formations and mountain ranges - similar geological features and rock formations found on continents that are now separated indicate they were once part of the same landmass.
Evidence of continental drift includes the matching shapes of continents, similar fossils found on different continents, and geological features that align across separate continents. These clues suggest that the continents were once joined together in a single landmass called Pangea.
It was South America and Africa.South America and Africa
South America and Africa are the most notable continents that fit together like a jigsaw puzzle (as all continents do). This suggests that continents were connected at one time and that they are mobile and constantly moving.
Evidence supporting the existence of a single supercontinent, known as Pangaea, includes the jigsaw-like fit of the continents along their coastlines, similarities in rock formations and mountain ranges across different continents, matching plant and animal fossils found on separate continents, and the alignment of ancient glacial deposits that suggest a single ice cap covering a large landmass. These pieces of evidence support the theory of plate tectonics and continental drift.
What evidence suggest ghosts are real? I believe that is the evidence.
Evidence for the theory of continental drift includes the fit of the continental coastlines, matching rock formations and mountain ranges across continents, similar fossil distributions on different continents, and the discovery of mid-ocean ridges and magnetic striping on the ocean floor that suggest seafloor spreading.
Fossils of the same species found on separate continents suggest that those continents were once connected. Mountain belts show evidence of ancient tectonic activity, helping to illustrate how continents may have moved. These clues were key in developing the theory of plate tectonics and determining how continents have shifted over geological time.
During the formation of Pangaea, the continents fit together in a supercontinent that was surrounded by a single large ocean called Panthalassa. The shapes of today's continents suggest that they were once connected, as evidenced by the matching coastlines of South America and Africa.
Continental drift is a slow geological process that occurs over millions of years, leading to the movement of continents. There is no scientific evidence to suggest that the continents will shift back all together as a single landmass in the foreseeable future. As of now, geological forces continue to shape and change the positions of the continents independently.
the Native American artwork that showed white, bearded men