they look the same when you take x-rays so it most mean the we came from the same organism
improved ans: by monitoring how and what an embryo grows as it matures, you can see a lot of things that you cannot see in a fully grown animal, for instance, human embryos have a tail at certain stages in developement, they also surprisingly have gills at one stage, two of these pairs of gill slits disapear as the embryo grows, and the final pair move upwards to become your eustacian canals and ears. this shows us that humans once had tails and that hundreds of millions of years ago we also had gills which means that at some point in our past we were once sea dwelling.
The morphology of embryos at various stages, and even the developmental patterns of embryos, show the same pattern of nested hierarchies that we find in morphology, behaviour and genomes, independently confirming common descent, but also teaching us how morphologies could diverge through relatively minor genetic shuffling.
Comparing embryos of different organisms can reveal similarities in their development, suggesting a common ancestry. These similarities in early development provide evidence for evolution by showing that different species share a common evolutionary history. Studying embryonic development can help trace the evolutionary relationships between different species and support the idea of descent with modification.
Embryos are used as evidence of evolution because they display striking similarities across different species during early development. These similarities suggest a common ancestry, supporting the theory of evolution. The study of embryonic development provides insights into the evolutionary relationships between species.
Scientists study embryos because they provide insights into how organisms develop and evolve. The features of embryos that support evolution include shared structures across different species, such as gill slits and tails in vertebrates, which suggest common ancestry. Comparing embryos of different species can also reveal similarities in developmental pathways, further supporting evolutionary relationships.
By monitoring how and what an embryo grows as it matures, you can see a lot of things that you cannot see in a fully grown animal. For instance, human embryos have a tail at certain stages in development. They also surprisingly have gills at one stage. Two of these pairs of gill slits disapear as the embryo grows, and the final pair move upwards to become your eustacian canals and ears. This shows us that humans once had tails and that hundreds of millions of years ago we also had gills, which means that at some point in our past we were once sea dwelling.Embryology shows that organisms look the same at their earlier stages. This supports evolution. Evolution is the idea that many organisms have a common ancestor, and that is why they have similar traits.The stages of development of the embryos of different organisms are extremely similar, thereby suggesting common ancestors.
It is generally thought to support the Theory of Evolution.
The morphology of embryos at various stages, and even the developmental patterns of embryos, show the same pattern of nested hierarchies that we find in morphology, behaviour and genomes, independently confirming common descent, but also teaching us how morphologies could diverge through relatively minor genetic shuffling.
The theory predicts that evolution will happen and in certain ways. The observed evolution makes this prediction correct. It also defines evolution as happening, and as such is perfect evidence in support of it.
Comparing embryos of different organisms can reveal similarities in their development, suggesting a common ancestry. These similarities in early development provide evidence for evolution by showing that different species share a common evolutionary history. Studying embryonic development can help trace the evolutionary relationships between different species and support the idea of descent with modification.
Embryos are used as evidence of evolution because they display striking similarities across different species during early development. These similarities suggest a common ancestry, supporting the theory of evolution. The study of embryonic development provides insights into the evolutionary relationships between species.
I do not so much " believe it " as I an convinced by the myriad lines of converging evidences that support the theory of evolution by natural selection. talkorigins.org
In every way.
There is strong support for the theory of evolution due to fossils that have been found by archeologists. The fossil records show evidence of evolution over billions of years.
There is no proven theory of evolution only the physical evidence of what Chuck Norris has allowed to live.
Scientists study embryos because they provide insights into how organisms develop and evolve. The features of embryos that support evolution include shared structures across different species, such as gill slits and tails in vertebrates, which suggest common ancestry. Comparing embryos of different species can also reveal similarities in developmental pathways, further supporting evolutionary relationships.
evolution theory
All vertebrate embryos look roughly the same, showing that they come from a common ancestor.