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Fermentation is simply anaerobic cellular respiration where an organic compound is used as an electron acceptor instead of using oxygen. Consequently, lots of types of cells can utilize fermentation. There are examples of both prokaryotes and eukaryotes that are capable of anaerobic respiration. The most common example of fermentation is in the yeast cell, which produces the alcohol found in beer. Another example is the human muscle cell, which produces lactic acid through fermentation when there is not enough oxygen present to continue cellular respiration (such as after a long jog).
moon
The balanced equation isC₆Hâ‚â‚‚O₆ + 6Oâ‚‚ → 6COâ‚‚ + 6Hâ‚‚O + energyThe equation expressed in words would be as noted below...glucose + oxygen → carbon dioxide + water + energy.the products in cellular respiration in the chemical equation are :carbon Dioxide , water and lots of heat in the form of energy.
So that lots of ATP can be produced, which can then release energy for active transport. Remember that epithelial cell are cells that release substances and can take substances in (exocytosis and endocytosis). This requires energy, so there are therefore lots of mitochondria.
i dont know at all give me the answer plz
Every bodily process requires energy to be performed. The energy is obtained by Cellular Respiration to create high energy bonds in ATP (adenosine triphosphate). The energy from there can be used to perform every small movement or reaction that goes on in your body. Even when you sleep you use lots of energy.
flowers require lots of energy, leaves produces energy for plants
Active transport requires energy. Energy is released as a result of respiration, and respiration takes place in mitochondria. So major sites of active transport, such as kidney nephrons and villi in the small intestine need relatively large number of these organelles.
The sun because it's hot and humans turn it into energy
Glycolysis is the first pathway involved in the breakdown of glucose. It produces 2 ATP per glucose molecule. The Krebs Cycle and oxidative phosphorylation together make up oxidative respiration and synthesize the bulk of ATP in the human body.
Respiration occures in the cells of the body. Respiration is always occurring. We are always breathing, so respiration is always occurring Respiration occurs inside cells in organelles called MITOCHONDRIA. MITOCHONDRIA are found in both plant and animal cell.Cells that have a high energy requirement contain more MITOCHONDRIA than cells that require less energy. The muscle cell in your legs, for example: Have lots of MITOCHONDRIA.
You'd have to part it from the oxygen it's connected to. This involves electrolysis, which requires lots of energy, and then ensuring spearation, which requires a lot of thinking.
Cells that need more respiration typically include those that are highly active and require lots of energy. Examples of these cells include: Cells in muscle tissue Brain cells Cells in the heart Cells in the lining of the small intestineThese cells require more respiration in order to produce the energy they need to perform their intended functions.
not a single structure but plenty of them; it moves and movements cost lots of energy
Underwater welding is the process of using an energy source that produces lots of heat to melt together large pieces of metal while diving underwater. There are many great underwater welding schools that can provide this training. You can find these listed from the American Welding Society.
Lots of places. the most intensive use is in Northern Europe. (Denmark produces wind power equal to about 40% of their electrical consumption)
A: The efficiency will be as 160/200 x 100= 80%