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What are the main differences between a virus and a bacteria which enable scientists to classify them?
Bacteria are single-celled organisms that can replicate themselves. By this, I mean that they have all the genetic material to replicate (DNA & RNA). Viruses, in contrast, contain a piece of genetic material that is encapsulated by a protein coat known as a capsid. Because viruses only have a portion of genetic material, they have to infect a host organism and inject its material into the host and use the host to do the work for the virus.
Since bacteria can "live" on its own and viruses cannot, bacterial infections can be treated with medications while viral cannot.
In comparison of size, viruses are about 100 times smaller than bacteria. About of 90% of known bacteria live in a symbiotic relationship with humans. This means that the presence of bacteria is beneficial to both the bacteria and humans. In comparison, most viruses feed of the host to produce more viruses... therefore having no benefit to the host.
What else can I help you with?
How do embryology and similar structures help classify organisms?
Embryology, along with similar structures like homologous organs and vestigial organs, provides clues about the evolutionary relationships between organisms. By studying the similarities and differences in embryonic development and structures across different species, scientists can infer how they are related and classify them into different groups based on their evolutionary history.
Scientists who study the structural similarities and differences between organisms are called?
taxonomist
What are the 3 domains used to classify living things?
Bacteria, Archaea (prokaryotes), Eukarya (eukaryotes)
Why scientist sometimes do not agree on how classify organisms?
Scientists may disagree on how to classify organisms due to differences in opinion on the evolutionary relationships between species, the criteria used for classification, or new discoveries that challenge traditional classifications. Additionally, varying expertise in different branches of biology and differing interpretations of genetic, morphological, and ecological data can also lead to disagreements in classification.
How is living things characteristics are use to classify them?
Living things are classified based on their characteristics such as cell structure, mode of nutrition, reproduction methods, and how they obtain energy. These characteristics help scientists group organisms into different categories like bacteria, plants, fungi, and animals based on their similarities and differences. This classification system helps to understand the diversity of life on Earth and study the relationships between different species.
What are the reasons scientists classify things?
Scientists classify things to organize and group information based on similarities and differences. This classification helps in understanding the relationships between different organisms or objects, making it easier to study and analyze them. Classification also aids in communication by providing a common language for discussing and sharing information.
Why are there 3 domains?
In biology, the domain refers to the highest possible classification of organisms. It was created by Carl Woese in 1990 in order to emphasize microbial diversity and recognize fundamental differences between archaea and bacteria.
What are the Differences between scientists and detectives?
That they both investigate to find their answer
What are the differences between viruses fungi and bacteria a short definition?
the answer to pie
In regards to taxonomic classification of bacteria what is the relationship between physiological and genetic differentiation of bacteria?
You're lame typing the answer as exactly as it is on the lab manual......I.V. Genetic differences between bacteria causes specific physiological differences among the bacteria, such as certain morphological characteristics as well as what compounds the bacteria can ferment and produce as by-products in this process.
What facts about characteristic chemical and physical properties make it possible for sientist to compare and classify matter?
Scientists can compare and classify matter based on its chemical properties such as reactivity, flammability, and ability to form bonds with other substances. Physical properties such as melting point, boiling point, density, and conductivity also provide valuable information for classifying matter. By studying these properties, scientists can identify similarities and differences between different substances to categorize them accordingly.
What do scientists use to classify seismic waves?
Scientists use characteristics such as wave velocity, propagation mode, and direction of particle motion to classify seismic waves. These properties help differentiate between the different types of waves produced by earthquakes and other seismic events.
Scientists who study the structural similarities and differences between organisms are called?
taxonomist
How do embryology and similar structures help classify organisms?
Embryology, along with similar structures like homologous organs and vestigial organs, provides clues about the evolutionary relationships between organisms. By studying the similarities and differences in embryonic development and structures across different species, scientists can infer how they are related and classify them into different groups based on their evolutionary history.
What are the 3 domains used to classify living things?
Bacteria, Archaea (prokaryotes), Eukarya (eukaryotes)
Why scientist sometimes do not agree on how classify organisms?
Scientists may disagree on how to classify organisms due to differences in opinion on the evolutionary relationships between species, the criteria used for classification, or new discoveries that challenge traditional classifications. Additionally, varying expertise in different branches of biology and differing interpretations of genetic, morphological, and ecological data can also lead to disagreements in classification.
What tool made it possible for scientists to discover two new kingdoms of species?
Advancements in DNA sequencing technology enabled scientists to identify and distinguish between different types of organisms on a molecular level. This allowed them to uncover two new kingdoms of life: Archaea and Bacteria. By analyzing genetic data, scientists could establish distinct evolutionary relationships and classify these organisms accordingly.
