-Fossil
-Biological
-Genetic
The three main pieces of evidence for the theory of evolution by natural selection are the fossil record showing transitional forms, comparative anatomy and embryology demonstrating similarities between different species, and molecular biology revealing genetic similarities indicating common ancestry.
The three roots of science evolution are empirical observations and experimentation, logical reasoning and critical thinking, and the constant revision of theories based on new evidence and data.
Evidence from paleontology, molecular cell biology, genetics, biochemistry, geology, evolutionary biology, evolutionary development (evo devo ), embryology and a host of other disciplines, such as anthropology. These show that alleles frequencies change over tim in populations of organisms. These show that all organisms on earth are related in morphology and function. Developmentally organisms are related. Vestigial evidences of relatedness. Biogeographically evidences
The basic textbook answer is: embryology, homologous and analogous structures, and fossils. However these are old ideas and don't stand on their own two feet, so to speak, when more research is done into them.
The three fields that collaborate to explain evolution are genetics, paleontology, and comparative anatomy. Genetics studies the role of DNA in inherited traits, paleontology examines the fossil record for evidence of past life forms, and comparative anatomy compares the physical structures of different species to infer evolutionary relationships.
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The three main pieces of evidence for the theory of evolution by natural selection are the fossil record showing transitional forms, comparative anatomy and embryology demonstrating similarities between different species, and molecular biology revealing genetic similarities indicating common ancestry.
Morphological evidence.Genetic and genomic evidence.Geographical evidence.
The three main pieces of evidence supporting the Big Bang theory are the cosmic microwave background radiation, the abundance of light elements in the universe, and the redshift of galaxies.
The three roots of science evolution are empirical observations and experimentation, logical reasoning and critical thinking, and the constant revision of theories based on new evidence and data.
Fossil record shows a progression of organisms from simple to complex forms over time. Comparative anatomy reveals similarities in bone structure and development between different species, indicating a common evolutionary ancestry. Genetic similarity and shared sequences in DNA among different species provide strong evidence for common ancestry and evolution.
Evidence from paleontology, molecular cell biology, genetics, biochemistry, geology, evolutionary biology, evolutionary development (evo devo ), embryology and a host of other disciplines, such as anthropology. These show that alleles frequencies change over tim in populations of organisms. These show that all organisms on earth are related in morphology and function. Developmentally organisms are related. Vestigial evidences of relatedness. Biogeographically evidences
In science, a theory is something that is not fully proven, but has strong supporting evidence. Some common theories that are well known, and seen by most people as fact include; Evolution, Plate Tectonics, and Gravity. All three of these have enough evidence to be scientifically sound, but we have not yet given 100% proof to turn them from scientific theory into scientific law.
Seismic Waves, Rock formations, and the shapes of the continents over time
vestgial structures fossils embryology also a big one is that there is a universal genetic code
The basic textbook answer is: embryology, homologous and analogous structures, and fossils. However these are old ideas and don't stand on their own two feet, so to speak, when more research is done into them.
The three major categories of evidence provided by the fossil record are body fossils (actual remains of organisms), trace fossils (impressions or structures left by past organisms), and chemical fossils (organic molecules preserved in rocks). These categories help scientists understand past life forms, their environments, and evolution over time.