What location would most likely hold autotrophs that get their energy from chemical compounds
MagNesium?
Scented candles derive their odors from oils added to the parrafin wax as it hardens.
Sulphuric acid is the combination or reaction of hydrogen and sulfate. Hydrogen has a valence electron of 1 and sulphate has a valence electron of 2- Therefore. H + SO4 = H2S04. The valence electron of H goes to sulfate and since it is one, it is not visible...SO4 And the valence electron of SO4 goes to H, hence, H2.
Urea is a chemical that is excreted in all mammals' urine. It is used in fertilizers, as a chemical feed stock for other syntheses, in the making of explosives, and in pollution reduction systems for diesel engines, among other things, but not is food. So there shouldn't be a problem even if it did come from pig urine. Further, for industrial purposes now, urea is synthesized from ammonia and carbon dioxide, and so does not derive from animal products at all. Yellow 5 is Tartrazine, a synthetic azo dye derived from petroleum. It is derived from raw chemicals, not from animal products.
All chemical bonds, including those found in network solids, derive from the electromagnetic force. Positively charged protons attract negatively charged electrons. Although atoms start off with an equal number of protons and electrons, and are therefore electrically neutral, the electrons rearrange themselves in ways that create attractions between atoms. Covalent bonds
Autotrophs
Deep water vents.
Autotrophs
Actually they are not autotrophs,they are phototrophs.Autotrophs are organisms who use CO2 as Carbon sourse.
Autotrophs are living beings that are able to derive energy from a source other than another living being- the source being sunlight or chemicals in the environment. Autotrophs include but are not limited to; plants who photosynthesize sunlight into chemical energy and microorganisms that live off of the chemicals secreted by hydrothermal vents deep under the ocean. With that being said, many things eat autotrophs- as a matter of fact most food systems start with auotrophs at the bottom. Some animals that eat autotrophs - Humans, dogs, hummingbirds, cows and horses. These animals are more largely called heterotrophs because they cannot derive their metabolic energy on their own- they must consume it through their diet by eating plants if they are herbivorous or meat if they are carnivorous.
Heterotrophs. These organisms derive their food from autotrophs,that is, the plants. They include- Carnivores, herbivores, omnivores, scavengers, decomposers.
All non carnivorous plants are autotrophs because they derive their energy from the sun through photosynthesis. They differ from heterotrophs in that they utilise carbon dioxide and not organic carbon sources.
Basically, there are two types of organisms: AUTOTROPHS & HETEROTROPHS. Autotrophs: These basically consist of the plants.They derive their energy from the sun by a system called photosynthesis. This energy helps provide them with what is required to survive. Heterotrophs: These are the animals that feed on themselves as well as on plants. They derive their energy from the plants. They get a lower level of energy at each stage of consumption.
Yes, fertilizer is a plant mineral.Specifically, fertilizer contains minerals. The minerals derive from plants when the fertilizers are considered organic. They derive from artificial, chemical or synthetic ingredients when the fertilizers are considered inorganic.
Yes, fertilizer is a plant mineral.Specifically, fertilizer contains minerals. The minerals derive from plants when the fertilizers are considered organic. They derive from artificial, chemical or synthetic ingredients when the fertilizers are considered inorganic.
autotrophs produce their own energy from the sun. heterotrophs(all other organisms. dont produce their own energy) can only get energy by consuming an autotroph. therefore, without autotrophs, there would be no life on earth because organisms wouldn't be able to get energy.
Organisms that can produce their own food are known as autotrophs. There are two main categories of autotrophs, they are: phototrophs (derive their energy from sunlight) and chemotrophs (derive their energy from the oxidation of a chemical fuel). An example of photoautotroph is a pine tree, an example of a chemotroph is a Methanobacteria.