They found species of animals on the galapgos islands that were the same but different, ill explain say you see a turtle and it has a short neck then see the exact same turtle but it has a crook in its shell to allow it to bundits head upwards to eat berries that grew on the island while the other turtle eats the ones on the ground. Look up Charles Darwin.
Alfred Wegener used several pieces of evidence to support his theory of continental drift, including the fit of continents like South America and Africa, similarities in rock formations and fossils across continents, and the matching of ancient climate indicators like glaciation patterns. Despite facing initial skepticism, Wegener's evidence paved the way for the development of the theory of plate tectonics.
Alfred Wegener used evidence such as the fit of continents like puzzle pieces, matching rock formations and fossils across continents, and similarities in geological features to support his theory of continental drift. These pieces of evidence suggested that the continents were once joined together in a single supercontinent, which later drifted apart to their current positions.
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.
It isn't clear what forms of evidence you are talking about. Also, redshift is not a theory; it's an observational fact. The THEORY (actually, the only reasonable explanation) for redshift on large scales is that it is due to the expansion of the Universe.
i'm not sure so why dont u ask ur teacher man? LOL
Personal beliefs and opinions are not a kind of evidence used to support evolutionary theory. Scientific evidence such as fossil records, DNA analysis, and observational data are the main sources of evidence.
Evidence used to support evolutionary theory includes the fossil record showing the progression of species over time, comparative anatomy and genetics showing shared traits among different species, and the observation of natural selection acting on populations leading to adaptation and speciation.
evidence
evidence
Four pieces of evidence used by Alfred Wegener to support his theory of continental drift were the fit of the continents, matching geological formations across continents, similar fossil distributions, and glacial evidence in tropical regions.
Personal beliefs or opinions Anecdotal accounts or stories Pseudoscientific claims or false data
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.
The four pieces of evidence that support the theory of evolution are the fossil record showing transitional forms, homologous structures in different species indicating a common ancestor, genetic similarities between different species, and observable examples of natural selection in action.
DNA evidence is crucial in modern evolutionary theory as it provides a molecular blueprint of how species are related. By comparing DNA sequences among different organisms, scientists can trace their evolutionary history, identify genetic variations, and infer how species have evolved over time. This evidence helps support the idea of common ancestry and provides insights into the mechanisms of evolution.
no he developed evolutionary theory
Fossil records, anatomical similarities, embryological development, and genetic similarities are all forms of evidence that support the theory of evolution. These pieces of evidence show the gradual changes in species over time and provide support for the idea that all organisms are related through common ancestry.
Various types of evidence, such as fossil records, comparative anatomy, molecular biology (DNA sequencing), and biogeography, all support the theory of common ancestry among organisms. These sources provide clues that organisms share a common evolutionary history and have descended from a common ancestor. Comparing these pieces of evidence across different species helps scientists infer relationships and trace the evolutionary trajectory of life on Earth.