Alfred Wegener used several lines of evidence to support the theory of Continental Drift, including the fit of the continents like a jigsaw puzzle, similarities in rock formations and mountain ranges across different continents, matching fossil records on different continents, and evidence of past climates that could only be explained if continents had once been connected.
Evidence for continental drift includes matching geological formations on different continents, such as mountain ranges and sedimentary layers. Additionally, the fit of the continents like puzzle pieces, similarities in fossil records on separate continents, and matching glacial evidence provide support for the theory. Paleoclimatic evidence, such as the distribution of ancient flora and fauna, also contributes to the case for continental drift.
His eviendence (and since he didn't have enough) was that he found eviendence on fossils land scape trenches and when he put the continents all together than he saw that the continents fit like a jigsaw puzzle and called it pangea.
Alfred Wegener used several lines of evidence to support his theory of continental drift. This included the fit of the continents like a jigsaw puzzle, similarities in rock formations and mountain ranges across different continents, matching fossils on separate continents, and paleoclimatic evidence such as glacial striations in tropical regions. These pieces of evidence led Wegener to propose the theory of continental drift in the early 20th century.
Fossils can form by: Freezing Amber Asphalt Carbonization
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.
Yes, the presence of the same organisms on multiple continents suggests that at some point in the past, those continents were connected. This supports the theory of continental drift, which explains how landmasses have moved over time. The distribution of these similar organisms across different continents provides additional evidence for this theory.
Alfred Wegener presented several lines of evidence to support his theory of continental drift, including the fit of the continents like a jigsaw puzzle, similarities in rock formations and mountain ranges across continents, and the distribution of fossils of the same species on different continents separated by oceans.
Alfred Wegener's theory of continental drift was supported by several lines of evidence, including the matching coastlines of different continents, similarities in rock formations and mountain ranges across continents, and the distribution of fossils of similar species on different continents. He also observed the fit of the continents like pieces of a jigsaw puzzle and the presence of ancient glacial deposits in regions that are now at different latitudes.
She found more coins at the bottom of her purse. Scientists have found dinosaur fossils on several different continents. The little boy wandered away but he was later found by his mother.
Yes, matching rock formations and fossils on different continents provide evidence for continental drift. These similarities suggest that the continents were once connected and have since moved apart. This supports the theory of plate tectonics, which explains how the Earth's lithosphere is divided into several large plates that move and interact with each other.
Brachiosaurus is related to several other large dinosaurs, such as Giraffatitan, Lusotitan, Cedarosaurus, and Sauroposeidon. Like all dinosaurs, its closest living relatives are crocodiles and birds.
Wegner's theory, people didn't believe him at first then people figured it out from his research. things thts prove it are rock fossils were found on several continents and plant and animal fossils were found on other continent that couldn't go across the atlantic or pacific ocean and the continents fit together like a puzzle and also, climate is the same on continents that are across the ocean and even the world.
1. The continents look like puzzle pieces that should fit together (maybe they did in the past). 2. Fossils and geographic layers found on the coast lines of continents (especially South America and Africa) matched up.
The evidence for the theory of continental drift comes from several sources, including the fit of the continents like pieces of a jigsaw puzzle, similarities in rock formations and fossils across different continents, and matching geological features such as mountain ranges. Additionally, paleoclimatic evidence, like the presence of glacial deposits in regions that are now near the equator, supports the idea that the continents were once joined in a supercontinent called Pangaea.
Alfred Wegener used several lines of evidence to support the theory of Continental Drift, including the fit of the continents like a jigsaw puzzle, similarities in rock formations and mountain ranges across different continents, matching fossil records on different continents, and evidence of past climates that could only be explained if continents had once been connected.
Alfred Wegener used several lines of evidence to establish the theory of continental drift, including the fit of the continents, matching geological features across continents, and the distribution of fossils. One key piece of evidence Wegener used was the matching geological formations and rock types found on different continents, such as the Appalachian Mountains in North America and the Caledonian Mountains in Europe. These similarities in geological features across continents supported Wegener's hypothesis that the continents were once connected and had drifted apart over time.