Chemosynthesis
The process of converting glucose (C6H1206) to energy in the form of ATP is known as anaerobic respiration in humans. The pathway involves glucose as a reactant yielding 2 lactic acids and 2 ATPs.
It is glucose. In response to the rise in blood-glucose levels (say) after a meal, the pancreas releases insulin which breaks down the glucose and carries it to cells that need extra energy.The glucose enters the cell by special molecules in the membrane called "glucose transporters". The cells that need glucose have specific insulin receptors on their surface so that insulin can bind to them, encouraging glucose entry and utilization in the cells.Once inside your cells, the glucose is burned to produce heat and adenosine triphosyphate, (ATP) a molecule that stores and releases energy as required by the cell.The metabolism of glucose into energy may occur either in combination with oxygen (aerobic metabolism) or without it (anaerobic metabolism). The oxygen used comes from the mitochondria - tiny bodies inside the cell. However, red blood cells do not have mitochondria, so they change glucose into energy without the use of oxygen.Glucose is also converted to energy in muscle cells - who are probably the most important energy "customers". These muscle cells do contain mitochondria so they can process glucose with oxygen. But even if oxygen-levels in the muscle-cell mitochondria fall too low, the cells can proceed to convert glucose into energy without oxygen. Unfortunately, turning glucose into energy without oxygen produces the by-product lactic acid. And too much lactic acid makes your muscles ache.
Because what they eat requires sunlight to live, therefore without sunlight they'd have no food.
to help the plants grow.The sun provides the energy needed for photosynthesis to happen.Photosynthesis is when water and carbon dioxide are converted into glucose (sugar) and oxygen. Without an input of energy this process would not happen. The light from the sun provides this energy.The role of light in photosynthesis is it is captured or absorbed by the chlorophyll and combined with water and carbon dioxide to make carbohydrates.it gives the energy needed to turn CO2 into sugar The sun's role for photosunthesis is to give of light rays to the plant that collects its rays and the plant stores the energy given off from the sun.
This chemical process is photosynthesis.
because without sunlight plants wont be able to produce glucose, which is their food.
All plants need sunlight. They need it to perform photosynthesis, the process of converting sunlight+water+CO2 into O2 and sugar. Without sunlight they couldn't complete this process
Chemosynthesis
good
because the plant converts the light energy (from the sun) into chemical energy (it's food)
fermentation
In the process of photosynthesis, carbon dioxide and water becomes glucose and oxygen, in the presence of sunlight and chlorophyll. The word equation for photosynthesis is: carbon dioxide + water ---> glucose + oxygen The function of chlorophyll is to trap sunlight for photosynthesis. Without chlorophyll, plants will not be able to photosynthesize, and thus will not be able to make its own food. umm... the first paragraph has nothing to do with it
The sunlight acts as a catalyst for the process of photosynthesis to take place. So no sunlight means that the plant can't "bake it's food ingredients into a proper meal" that it needs to live.
Plants cannot live longer without sunlight than without water, this is due to the process of photosynthesis
The process is called a photosynthesis. Plants make glucose and oxygen from: sunlight and carbon dioxide. That's why deforestation is so dangerous; without plants carbon dioxide levels would quickly build up - which contributes to global warming as well as increases the concentrations of CO2 in the atmosphere
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