examples of animalia
what are some examples of conversion, in math not in science
eubacteria and archaebacteria
0.259, 0.25734, 0.0003 are some examples.
There are infinitely many numbers. Some examples:2.49000000000000000000010000000000200000022.490000000000000000000112.49000023542.52.512.522.79999999999999999999999999992.8599999999999999999999999999999There are infinitely many numbers. Some examples:2.49000000000000000000010000000000200000022.490000000000000000000112.49000023542.52.512.522.79999999999999999999999999992.8599999999999999999999999999999There are infinitely many numbers. Some examples:2.49000000000000000000010000000000200000022.490000000000000000000112.49000023542.52.512.522.79999999999999999999999999992.8599999999999999999999999999999There are infinitely many numbers. Some examples:2.49000000000000000000010000000000200000022.490000000000000000000112.49000023542.52.512.522.79999999999999999999999999992.8599999999999999999999999999999
Some examples are methanogens, halophiles, thermophiles, and thermoacidophiles
thermophiles inhabiting the hot springs
Some examples of organisms in the Archaebacteria kingdom include methanogens, extremophiles (such as thermophiles and halophiles), and some sulfate-reducing bacteria. These organisms are known for their ability to thrive in extreme environments, such as volcanic springs, deep sea vents, and hypersaline lakes.
boner
methanogens, halophiles, thermophiles and thermoacidophiles.
Most archaebacteria need to have air and water to survive. Some archaebacteria don't need air only sunlight to survive.
Some archaebacteria are heterotrophs, meaning they rely on organic material as a food source. However, there are also autotrophic species of archaebacteria that can produce their own food through processes like chemosynthesis.
Heterotrophic archaebacteria obtain their energy by consuming organic compounds from their environment, while autotrophic archaebacteria can produce their own food using inorganic substances. Examples of heterotrophic archaebacteria include Methanobrevibacter smithii, which produces methane as a byproduct, and examples of autotrophic archaebacteria include Methanothermococcus thermolithotrophicus, which uses hydrogen gas as a source of energy.
most archaebacteria don't move and are instead moved around by their environment. some have flagella, though
Archaebacteria can be chemoheterotrophs, meaning they obtain their energy by consuming organic matter. Some species of archaebacteria can also be chemolithotrophs, deriving energy from inorganic compounds such as sulfur or hydrogen.
Archaebacteria are some of the oldest organisms living on Earth. They are considered simple because of their external body structure.
The Archaebacteria that live in hot springs and boiling deep ocean vents are typically members of the thermophilic and hyperthermophilic groups. These extremophiles are specially adapted to thrive in extremely high temperatures, with some capable of surviving in temperatures over 100°C. Examples of these Archaebacteria include Thermococcus, Pyrococcus, and Methanocaldococcus.