taxonomist
the similarities between cat rat and bat are that they are from the kingdom animelia and phylum mamalia.
To understand the structural similarities, one has to understand the functional similarities. The most obvious similarity is that they are both involved with transport via diffusion. So the structural similarities would be those that facilitate this. eg. thin epithelium, large blood supply.
True
A similarity between a habitat and a niche is that they both have to deal with an organisms lifestyle.
i was just lookin 4 dat ansa but i think its da similarity You are a load of help
taxonomist
Scientists use structural similarities, such as homologous structures and similar biochemical pathways, to determine evolutionary relationships. These similarities suggest a common ancestry and can help scientists infer how different species are related to each other. By comparing the presence and arrangement of these structures among different species, scientists can construct evolutionary trees to understand the history of life on Earth.
taxonomist
It is true that scientists determine evolutionary relationships by looking at breeding behavior, geological distribution, and structural similarities between organisms. Scientists can use other criteria to determine evolutionary relationships.
Molecular phylogeny is the method of organism classification that can demonstrate relationships between organisms even when structural analysis is unclear or misleading. By analyzing DNA sequences, scientists can determine evolutionary relationships based on genetic similarities, providing a more accurate representation of the evolutionary history of organisms.
the similarities between cat rat and bat are that they are from the kingdom animelia and phylum mamalia.
Scientists can investigate relatedness between organisms through DNA sequencing, which can reveal genetic similarities and differences. They can also use phylogenetic analysis to study evolutionary relationships based on shared ancestry and common characteristics.
Levels of classification depend on the similarities and differences between organisms. Organisms with more similarities are grouped into the same categories at higher taxonomic levels, while organisms with more differences are placed in separate categories. This hierarchical system helps scientists organize and understand the diversity of life on Earth.
Scientists use various methods to determine if living things are related, such as comparing similarities in DNA sequences, anatomical structures, and embryonic development. These similarities suggest a common ancestry and evolutionary relationship between organisms. Additionally, the fossil record and biogeographical distribution of species also provide evidence for relatedness among living organisms.
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To understand the structural similarities, one has to understand the functional similarities. The most obvious similarity is that they are both involved with transport via diffusion. So the structural similarities would be those that facilitate this. eg. thin epithelium, large blood supply.
Scientists use various techniques such as analyzing DNA, studying anatomical similarities, and examining geographical distributions to determine the living relatives of a fossil. By comparing these factors, scientists can infer relationships between the fossil and modern organisms to identify potential living relatives.