The theory of plate tectonics easily explains the distribution of mesosaurus. When mesosaurus was alive, all of the continents were massed together into the supercontinent Pangaea. Therefor, South America and Africa met because there was no Atlantic Ocean, so the distribution of mesosaurus makes complete sense.
It could be a Gaussian curve (Normal distribution) rotated through a right angle.It could be a Gaussian curve (Normal distribution) rotated through a right angle.It could be a Gaussian curve (Normal distribution) rotated through a right angle.It could be a Gaussian curve (Normal distribution) rotated through a right angle.
It depends on what the distribution is. In a Normal or Gaussian distribution, the standard deviation is the square root of the mean, so it could be 3.1 but, again, it depends on the distribution.
Yes.
The standard normal distribution is a subset of a normal distribution. It has the properties of mean equal to zero and a standard deviation equal to one. There is only one standard normal distribution and no others so it could be considered the "perfect" one.
Binomial distribution is learned about in most statistic courses. You could use them in experiments when there are two possible outcomes and each experiment is independent.
Old answer: the scientists found them in the 2 regions andMesosaurus was significant in providing evidence for the theory of continental drift, because its remains were found in southern Africa and eastern South America, two far away places. As Mesosaurus was a small freshwater organism, and therefore could not have crossed the Atlantic Ocean, this distribution indicated that Africa and South America used to be joined together. Indeed, all the world's continents were joined into one supercontinent called Pangaea in the time Mesosaurus existed.
Fossils of the Mesosaurus, a freshwater reptile, and Glossopteris, a seed fern, provide significant evidence for continental drift. Mesosaurus fossils have been found in both South America and Africa, suggesting these continents were once connected, as this species could not have traversed vast oceans. Similarly, the distribution of Glossopteris fossils across Africa, South America, Antarctica, India, and Australia supports the idea of a supercontinent, as its seeds would not have been able to spread over such distances. These fossil distributions align with the theory of plate tectonics and the historical movement of continents.
Mesosaurus fossils are crucial in supporting the existence of Pangaea, as they provide evidence of continental drift. These ancient freshwater reptiles were found in both South America and Africa, indicating that these continents were once connected. The presence of Mesosaurus in separate continents suggests that they could not have crossed the vast oceans that exist today, reinforcing the idea of a unified landmass in the past. This biogeographical evidence contributes to our understanding of the historical configuration of Earth's continents.
The fossil that was found on different continents and used to support the theory of continental drift is the Mesosaurus. This extinct freshwater reptile had limited swimming abilities, making it unlikely that it could have crossed vast oceans. Its distribution on both sides of the Atlantic Ocean provided evidence of land connections that later formed the basis for the theory of continental drift.
The presence of Mesosaurus fossils in both South America and Africa indicates that these continents were once connected, as this freshwater reptile could not have traversed the vast ocean separating them today. This evidence supports the theory of continental drift, suggesting that South America and Africa were part of the same landmass during the early Permian period. Additionally, Mesosaurus fossils found in Antarctica reinforce the idea that these landmasses were once situated closer together in a more unified configuration. Overall, these fossils imply that the continents were aligned differently in the past, contributing to the understanding of the geological history of the Southern Hemisphere.
Mesosaurus and Lystrosaurus provided evidence for the existence of Pangaea through their fossil distributions. Mesosaurus, a freshwater reptile, was found in both South America and Africa, suggesting these continents were once connected, as it could not have traversed the vast ocean separating them. Similarly, Lystrosaurus fossils were discovered in Antarctica, Africa, and India, indicating that these landmasses were once part of a larger supercontinent. The presence of these identical species across distant continents supports the theory of continental drift and the existence of Pangaea.
Fossils provide crucial evidence for continental drift by showing that similar species existed on continents that are now widely separated. For example, fossils of the freshwater reptile Mesosaurus have been found in both South America and Africa, suggesting these continents were once joined. Additionally, plant fossils like Glossopteris indicate a shared environment, supporting the idea of connected landmasses. These fossil findings help reconstruct historical land configurations and validate the theory of plate tectonics.
He had evidence from Climate- because fossils of plants forming in places without the ideal temperature were found and the same plants found at another place with the right temperature. Fossils- fossils of the reptiles mesosaurus and lystrosaurus found on continents separated by ocean and neither could swim that great of a distance in salt water, and Land Features- Mountain ranges in south America match up with the mountain ranges in Africa, like a jigsaw- puzzle Hope this helps :)
Since the Mesosaurus was a fresh water reptile, there was no way it could've swam across the Atlantic Ocean (which has salt water) to both continents. So that meant Africa and South America were at one point joined together.
Crocodiles could be considered to be "living fossils" as they have survived on Earth from the time of the dinosaurs.
if you have dimond you have to use explorer kit
The fossil of the reptile Mesosaurus was found on both South America and Africa, providing strong evidence for the existence of the supercontinent Pangaea. This freshwater species could not have traversed the vast ocean that separated these continents, indicating that they were once joined. The discovery of such identical fossils on separate landmasses supports the theory of continental drift and the historical connection of continents.