The point of cellular respiration is to harvest electrons from organic compounds such as glucose and use that energy to make a molecule called ATP
When Elodea is at the light compensation point, the rate of photosynthesis matches the rate of respiration. This means that the amount of oxygen being produced through photosynthesis is equal to the amount being consumed through respiration, resulting in no net change in oxygen levels in the water.
Aerobic respiration requires oxygen; anaerobic respiration does not use oxygen.
Anaerobic respiration does not require oxygen, while cellular respiration does. Anaerobic respiration produces less energy compared to cellular respiration.
Cell Respiration
Aerobic respiration is the respiration that requires oxygen. It needs oxygen in order to generate ATP. Anaerobic respiration does not require oxygen.
When the rate of respiration is equal to that of the rate of photosynthesis
The whole point of cellular respiration is the production of ATP. If it is anaerobic respiration you end up with 2 ATP molecules, if it is aerobic respiration you end up with 32 Atp molecules. Glycolosis, Krebs cycle, and the Electron transport chain are the three main components of aerobic cellular respiration.
The Respiration enchantment increases your underwater breathing time by 15 seconds and increases the amount of time between each point of drowning damage by 1 second.
When Elodea is at the light compensation point, the rate of photosynthesis matches the rate of respiration. This means that the amount of oxygen being produced through photosynthesis is equal to the amount being consumed through respiration, resulting in no net change in oxygen levels in the water.
The inputs, or reactants are oxygen and high energy sugars, such as sugar. After respiration, carbon dioxide, water, and ATP (energy) is produced. trust point please =D
The light compensation point is the specific light intensity at which the rates of photosynthesis and respiration in a plant are equal. At this point, the net carbon dioxide exchange is zero; the plant neither gains nor loses biomass. Below this light level, respiration exceeds photosynthesis, leading to a net loss of energy, while above it, photosynthesis surpasses respiration, allowing the plant to thrive and grow. This concept is crucial for understanding plant productivity and energy dynamics in ecosystems.
The compensation point is the specific light intensity at which the rate of photosynthesis equals the rate of respiration in plants. At this point, there is no net exchange of oxygen; the amount produced through photosynthesis is balanced by the amount consumed during respiration. This concept is crucial for understanding plant growth and survival in various lighting conditions, as it indicates the minimum light required for a plant to maintain its energy balance.
If an enzyme in a sequence of enzyme-controlled reactions is missing or defective then the process will stop at that point. So respiration could proceed until it reached the reaction which needed the missing or defective enzyme at which point it would stop.
If an enzyme in a sequence of enzyme-controlled reactions is missing or defective then the process will stop at that point. So respiration could proceed until it reached the reaction which needed the missing or defective enzyme at which point it would stop.
Carbon dioxide leaves the blood and goes into the alveoli where it can then be breathed out of the body. It is also at this point that oxygen passes into the blood to be carried to where it is required for respiration - carbon dioxide being a by-product of respiration.
The main point of photosynthesis is to make Glucose for the plant to use in cellular respiration which will produce ATP for the plant cell to use to power its cellular activities.
Yes. Cellular respiration produces ATP, which crickets need so survive, since it is the main way energy is stored in living things. If crickets could not carry out cellular respiration, they would not be alive.