Aerobic respiration will be stopped. Body will not get enough energy
i was hoping u would give the answer
A marathon runner primarily relies on aerobic energy production to sustain endurance throughout the race. However, there may be some anaerobic energy production during intense sprints or inclines, but the aerobic system is the dominant source of energy for marathon running.
Oxygen is used for aerobic respiration (its aerobic because it uses oxygen, aerobic is respiration without oxygen. ) Aerobic respiration is the chemical reaction used to get energy from glucose (in our food). The chemical equation for aerobic respiration is glucose + oxygen -> carbon dioxide + water (+ energy). Energy is in brackets because it is not an actual substance. We use energy to move and to do everything we need to do to keep alive, so do other animals. Therefore animals need oxygen to stay alive.Source- http://www.bbc.co.uk/schools/gcsebitesize/science/add_aqa/respiration/respirationrev1.shtml
The production of lactic acid or ethanol as byproducts would indicate that the respiration reactions are anaerobic. These byproducts are produced when there is a lack of oxygen available to complete the aerobic respiration process. Additionally, anaerobic respiration typically produces less energy compared to aerobic respiration.
Krebs cycle Electron transfer chain
Aerobic respiration will be stopped. Body will not get enough energy
any throwing event does not use the aerobic system iof the body, they instead use the PCr system, sprinting and exercises that require short bursts of energy use the anareobic systems of the body.
i was hoping u would give the answer
A marathon runner primarily relies on aerobic energy production to sustain endurance throughout the race. However, there may be some anaerobic energy production during intense sprints or inclines, but the aerobic system is the dominant source of energy for marathon running.
Aerobic respiration is important in living organisms as it is the process that produces the majority of ATP, the energy currency of cells. It allows cells to efficiently break down glucose and other molecules to generate energy for various cellular activities. Without aerobic respiration, organisms would not be able to meet their energy requirements for growth, reproduction, and maintenance of cellular functions.
You are referring to aerobic cellular respiration. The rate at which aerobic respiration occurs in a cell depends on the type of cell and the activity level of the organism. An organism (including humans) would need aerobic respiration to take place rapidly when it is active because it needs more energy, but not as rapidly when it is at rest when it needs less energy.
You are referring to aerobic cellular respiration. The rate at which aerobic respiration occurs in a cell depends on the type of cell and the activity level of the organism. An organism (including humans) would need aerobic respiration to take place rapidly when it is active because it needs more energy, but not as rapidly when it is at rest when it needs less energy.
Aerobic and anaerobic typically refer to microorganisms. Obligate anaerobes die in the presence of oxygen, and obligate aerobes die without it. Most plants occur in an oxygen-rich, terrestrial environment, and would thus be considered aerobic. Even totally aquatic plants, as those found in oceans, are exposed to some quantities of oxygen, thus it seems logical to surmise that if the terms aerobic and anaerobic are to be applied to macroscopic life such as plants, plants would be considered aerobic.
The energy-releasing process you are referring to is cellular respiration, where glucose is broken down in the presence of oxygen to release energy. Oxygen is used as the final electron acceptor in the electron transport chain to produce ATP, the energy currency of the cell.
Yes, oxygen is consumed by the aerobic bacteria in degrading the dead algae. Oxygen is used by bacteria in aerobic respiration. Lots of energy needed for degradation of organic matter in to inorganic comes from cellular respiration of bacterial cells.
Aerobic respiration would be the best energy-releasing process if you need a lot of energy. It produces a high amount of ATP molecules, which are the energy currency of cells, by breaking down glucose in the presence of oxygen.