Answer: 1. Glycogen
2. Glycogenesis
3. Fatty acids
4. Catabolic reactions
5. Pyruvate
6. Fermentation
Explanation:
1. Glucose and glycogen metabolism are the primary source of ATP through glycolysis, which provides Acetyl co A needed for further generation of ATP in citric acid cycle.
2. Glycogenesis is an anabolic reaction which involves the building of glycogen chain from glucose units. Anabolic reactions involve the building of macromolecules from smaller building blocks.
3. Gluconeogenesis involves the synthesis of glucose from non glucose precursors like amino acids from protein and fatty acids from lipids.
4. Catabolic reactions involve the breakdown of macromolecules into simpler and smaller building blocks.
5. Pyruvate is the last product in glycolysis where phosphoenol pyruvate is converted to Pyruvate by the enzyme, pyruvate kinase.
6. Private has two fates; aerobic respiration and anaerobic fermentation. In anaerobic fermentation, pyruvate is either reduced to lactate through lactic acid fermentation or converted to ethanol and water in low oxygen conditions.
Radiation is the energy transfer in the light from space from the sun to the solar collector.
<u>Explanation:</u>
On the earth itself the solar collector is situated, here energy must travel from sun to the Earth through vacuum, but energy cannot be transmitted through vacuum by either conduction like molecular collision or convection like fluid movement due to difference in densities, as both of the process need medium. Thus energy from sun to the Earth is traveled through radiation carrying electromagnetic waves, many of these are light waves. Thus energy transfer in the light from space from the sun to the solar collector is processed through radiation.
During photosynthesis, solar/light energy from the sun is transformed into C6H12O6, or glucose (chemical energy). Photosynthesis is defined as the process by which green plants and some other organisms use sunlight to synthesize foods (glucose) from carbon dioxide (CO2) and water (H20). Photosynthesis in plants generally involves the green pigment chlorophyll and generates oxygen (O2) and glucose.
Answer:
Explanation:
The high chlorine rates destroy intestinal flora, which can inhibit the ability of your digestive system to effectively absorb and process nutrients. As a result, your body might not absorb and benefit from the minerals, vitamins and fats that you take in, thus making the body more vulnerable to infections.
