All living organisms, including animals, plants, fungi, and bacteria, perform cellular respiration, a process to extract energy from food. Animals and many bacteria perform aerobic respiration which requires oxygen, while some organisms like yeast and certain bacteria can perform anaerobic respiration without oxygen.
All living organisms perform cellular respiration. This is a process by which cells extract energy stored in food and transfer that energy to a molecule called ATP (Adenosine Triphosphate). Organisms such as animals, plants, fungi, and bacteria all perform cellular respiration, although the exact process may differ somewhat between organisms.
For example, animals and many bacteria perform aerobic respiration, a type of cellular respiration that requires oxygen. Aerobic respiration is highly efficient and produces a large amount of ATP. On the other hand, some organisms, like yeast and certain bacteria, can perform anaerobic respiration when oxygen is not available. This process yields less ATP but allows these organisms to survive in environments where oxygen is scarce.
All living organisms perform cellular respiration using oxygen and glucose, which are produced by photosynthesis.
All living organisms on earth perform cellular respiration using oxygen and glucose, which are produced by photosynthesis. This process occurs in cells and is the primary way that organisms derive energy from the food they consume. It is an essential process for all living organisms, including plants, animals, and microorganisms.
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Answer:
Prokaryotic cells have a ring-shaped nucleus, however it is not fully defined, and thanks to this, their DNA is found unlike eukaryotic cells, scattered in the cytoplasm, an example of a prokaryotic cell is a bacterium, which has Oval shaped
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When a liquid's temperature is higher than that of a gas. Under pressure, the solubility of a gas in a liquid happens more quickly. The solubility of a gas in a liquid changes the rate of dissolution.
Liquids and gases combine to generate solutions. As a result, the system achieves equilibrium, with some of the gas molecules dissolving in the liquid and the remaining ones remaining in the gaseousphase above the liquid.
The solubility, which depends on gas pressure, is a measurement of the concentration of dissolved gas particles in the liquid.
When the temperature of a liquid is higher than that of a gas. A gas dissolves more quickly in a liquid when it is under pressure. The rate of dissolution varies depending on how soluble a gas is in a liquid.
Thus, When a gas is dissolved in a liquid, the gas dissolves faster if the liquid is increased or decreased.
To learn more about the gas, follow the link;
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Answer:
ATP and NADPH.
Explanation:
The light-dependent reactions convert light energy into chemical energy. The goal of the light-dependent reactions of photosynthesis is to collect energy from the sun and break down water molecules to produce ATP and NADPH.