c.G3P molecules.
Some algae have chloroplasts and chlorophyll and obtain their energy through photosynthesis while some algae like euglena are both heterotrophic (decompose dead organic matter) and autotrophic (use photosynthesis) and can also obtain energy likewise. Hope I helped.
Um...there are many bacteria species which can do that. Did you happen to ask which organell of the plants transforms sunlight energy into ATP and NADPH? - That would be the chloroplast.
Fossil fuels rely on the Sun's energy because the energy in fossil fuels came from plants and algae as they performed photosynthesis, which requires sunlight. This energy was stored in the form of sugars, and when the plants and algae died, they were eventually buried and heated to a point where they were turned into a fossil fuel, which contained the solar energy the plants had stored in their lifetimes.A:Fossil Fuels originate from the transformation of residual organic matter within sedimentary rocks, a process that takes million years to occur. Organic residues issued from dead organisms (plants, plantkon, etc) are mostly mineralized into CO2 in the water column (sea borders, lakes) and at the surface of sediments. However, under certain conditions (anoxicity), organic materials are preserved and trapped within sediments. As a result of sediments burial, organic matter is submitted to higher pressure and temperature and becomes thermally unstable. It then transforms into water, CO2 and hydrocarbons.Fossil fuels exist because life exists at the Earth's surface. Photosynthesis is the process by which CO2 is transformed into organic matter that constitute living organisms. The energy for phtosynthesis comes from the sun, so indeed one can say that sun is the origin of fossil fuels.
Photosynthesis is the cellular process that converts solar energy into chemical energy.
amhhh... kumuha ka nlng ng dictionary doon ka maghanap..
C:G3P Molecules
G3P molocules
Photosynthesis is used for food for plants Photosynthesis is used for production of organic compounds from carbon dioxide and water. These organic compounds serve as food material to plants and animals.
Algae uses organic wastes in the water and produces oxygen. Plants produce oxygen after inhaling carbon dioxide.
A polysaccharide derived from algae cell walls. So, a sugar.
Actually, it depends on the specific type of algae. Some are plants, but most algae is neither plant nor animal. It is a bacterium - a large, single-celled organism. or Algae (Seaweed ) is an autotrophic organism. An autotroph is an organism that produces complex organic compounds from simple inorganic molecules using energy from light ( photosynthesis ) or inorganic chemical reactions.
An autotroph is a organism that produces complex organic compounds from a simple substance. Three that can be found in an estuary are green algae, red algae and cyanobacteria.
Cellular Respiration
autotrophs are green plants, algae, etc.
No.A heterotroph is an organism that cannot fix carbon and uses organic carbon for growth.This contrasts with autotrophs, such as plants and algae, which can use energy from sunlight to produce organic compounds such as carbohydrates, fats, and proteins from inorganic carbon dioxide.An oak tree is an autotroph.
A plant or heterotroph. The inorganic carbon of CO2 is made into the organic sugar glucose as the result of photosynthetic organisms such as plankton, phytoplankton, and algae.
Green plants include a broad assemblage of photosynthetic organisms that all contain chlorophylls, store their photosynthetic products as starch inside the double-membrane-bounded chloroplasts in which it is produced, and have cell walls made of cellulose.In this group are several thousand species of what are classically considered green algae, plus several hundred thousand land plants.