Sunlight
Phototrophs, such as plants and algae, use sunlight to convert carbon dioxide and water into glucose through photosynthesis. Heterotrophs, including animals and fungi, consume organic matter produced by phototrophs to obtain energy. When heterotrophs respire, they release carbon dioxide back into the environment, which can be taken up by phototrophs to fuel photosynthesis, closing the cycle.
The immediate source of energy that powers a cell's activities is adenosine triphosphate (ATP). ATP is synthesized through cellular respiration and is used by cells as a direct source of energy for various processes such as metabolism, muscle contraction, and cell division.
A Phototroph is an oranism that is capable of oxidising its electron donor by using light energy. It is the first prefix when addressing these organisms, they can be; Phototrophs which use light to oxidise or they can be Chemotrophs which use chemical energy to oxidise their electron donor. if you type in nutritional groups into your search engine then u should find a bit of information.
Chemoautotrophs obtain energy by oxidizing inorganic compounds instead of utilizing sunlight like photoautotrophs. This process allows them to synthesize organic molecules and carry out metabolic processes without relying on light energy.
Glucose is the preferred source of energy for the brain.
Sunlight
Sunlight
Autotrophs can be phototrophs or lithotrophs (chemoautotrophs). Phototrophs use light as an energy source, while lithotrophs oxidize inorganic compounds, such as hydrogen sulfide, elemental sulfur, ammonium and ferrous iron.
yes
No, chemotrophs and phototrophs are not the same. Chemotrophs obtain energy by oxidizing chemical compounds, while phototrophs harness energy from sunlight through photosynthesis. Both are types of organisms that produce energy, but they utilize different sources—chemical versus light energy.
One example is the sun.
Autotrophs that utilize light as their energy source are called phototrophs. These organisms are able to perform photosynthesis to convert light energy into chemical energy for their survival and growth. Examples include plants, algae, and some bacteria.
In fission reactors, which is the only practicable source of energy at present, it is the fission of the nuclei of uranium and plutonium which produces the energy
Phototrophs, such as plants and algae, use sunlight to convert carbon dioxide and water into glucose through photosynthesis. Heterotrophs, including animals and fungi, consume organic matter produced by phototrophs to obtain energy. When heterotrophs respire, they release carbon dioxide back into the environment, which can be taken up by phototrophs to fuel photosynthesis, closing the cycle.
In fission reactors, which is the only practicable source of energy at present, it is the fission of the nuclei of uranium and plutonium which produces the energy
Energy released from movement of protons through ATP synthase energy released from movement of protons through ATP synthase is the most direct source of energy in this case.
A battery is a chemical source of energy that produces direct current, DC. Some are rechargeable; some are not.