any live cells need oxygen its the base element to all life on the planet
other answer:
as we all know human existence will no be possible if not for one very important thing oxygen..
_ jarish answer_
Oxygen is required in biological systems for cellular respiration, which is the process by which cells convert oxygen and glucose into energy, carbon dioxide, and water. This energy is used to fuel various cellular activities essential for life.
It determines the amount of dissolved oxygen that is consumed by aerobic biological microorganisms in water. It is measured by the amount of oxygen that is consumed per liter of sample during 5 days of incubation it is in milligrams.
A phosphate ion is a negatively charged particle composed of phosphorus and oxygen atoms. It plays a crucial role in biological systems, such as in energy storage (as in ATP) and as a component of DNA and RNA.
Biogeochemical cycling of oxygen, hydrogen, nitrogen, and carbon is crucial for living systems as these elements are essential for life processes. These cycles regulate the availability of these elements in the environment, allowing organisms to obtain and utilize them for functions like respiration, photosynthesis, and the formation of biological molecules. Any disruption in these cycles can have significant impacts on the health and balance of ecosystems.
Colloids can impact biological systems by altering the distribution and availability of nutrients and contaminants in the environment. They can also affect the transport of pollutants in soil and water systems, leading to potential risks for human health and ecosystem functioning. In terms of the environment, colloids can influence processes such as soil erosion, sedimentation, and water quality by interacting with particles and chemicals in the environment.
Oxygen is required in biological systems for cellular respiration, which is the process by which cells convert oxygen and glucose into energy, carbon dioxide, and water. This energy is used to fuel various cellular activities essential for life.
Journal of Biological Systems was created in 1993.
ATP is stable in biological systems.
Only biological parents are required to support their children.Only biological parents are required to support their children.Only biological parents are required to support their children.Only biological parents are required to support their children.
Yes, aspartic acid can be phosphorylated in biological systems.
In biological systems, phosphates typically carry a charge of -3.
In biological systems, amino acids such as serine, threonine, and tyrosine can be phosphorylated.
Yes, protein folding increases entropy in biological systems.
Oxygen Demand -The amount of oxygen require to oxidize an organic materialBiochemical (Biological) Oxygen Demand (BOD) -The amount of oxygen required to oxidized any organic matter present in the water by microbes present in the water. Usually representin the easily "digestible" organics.Chemical Oxygen Demand (CO) - The amount of oxidants experessed as oxygen required to consume all organics in a water sampleTotal Oxygen Demand (TOD) the sum of COD and BODBiological Oxygen demand is the oxygen required to oxidized only organic matter by micro organisms (it is basically a prototype of actual process happening in treatment plant) while chemical oxygen demand is the oxygen consumed to oxidize all organic and inorganic matter and it employ chemicals to do this process that why it is way more fast then BOD experiment .
Crystal violet binds to nucleic acids, specifically DNA, in biological systems.
Yes, aspartate can be phosphorylated in biological systems through the addition of a phosphate group to its structure.
Biological oxygen demand is a measure e of how much oxygen microbes will use in decomposing organics in the water. It isa measure of how much oxygen is required to diffuse into the water to keep the ecosystem aerobic.