The availability of the reactants needed for respiration (CO2, ADP, NAD+, FAD, H+, etc). The reactants are formed by photosynthesis.
Usually, the higher the temperature the faster enzymes react and the quicker a reaction moves forward, however, if the temperature gets too hot, it can denature the proteins involved in the reaction.
chemical factors in the blood
temperature can affect the rate of respiration in mungbeans the higher the temp the more oxygen is taken in during respiration. i think! Dr. Fraz - Is that the worst biologically explained answer I've ever heard?! I think?! Think?! Don't answer if you don't know for sure! You're just providing pointless information aren't you! As it happens you are correct, it's just a very poor/unhelpful question, and the uncertainty with which you answered it quite frankly peed me off a little! Temperature does affect the rate of respiration. As the temperature increases the Mung Beans respire quicker. The increase in temperature will continue to increase the rate of respiration but only to a certain point. Once the temperature reaches around 700c the Mung Beans start to denature due to the temperature becoming too high for them to survive. This ultimately will lead to a decrease and eventual cease of all respiration. I must also add, your grammar is terrible. Capital letters? Take pride in your answer, I now I do! :D
Research suggests that exercise can affect cellular respiration similarly in boys and girls. Both genders can experience improvements in mitochondrial function and oxygen utilization with regular exercise. Factors such as fitness level, intensity of exercise, and individual physiology may influence the specific effects of exercise on cellular respiration.
less glucose would be available for energy production.
Factors affecting cellular respiration include substrate availability, oxygen levels, and temperature. For photosynthesis, factors include light intensity, carbon dioxide levels, and temperature. These factors can impact the efficiency and rate of each process in cells.
Factors Affecting Cellular RespirationBy Sue Teresa Tan, eHow ContributorOther People Are ReadingCellular respiration is the method of transforming nutrients to energy. Some of the nutrients that go through the process of cellular respiration are fats, glucose and other acids. The process of cellular respiration results in more energy. Many factors affect the rate of cellular respiration in living things.Amount of NutrientsThe more nutrients that are available to transform, the more energy results in the cellular respiration process. The types of nutrients that can go through the cellular respiration process and transform into energy are namely fat, proteins and carbohydrates. This also includes amino acids and fatty acids. The carbohydrates converts to glucose, the fats go through the citric acid cycle and the proteins break down and go through glycolysis. The amount of nutrients available to transform into energy depend on the diet of a person. The nutrients go through three processes in cellular respiration. The processes are glycolysis, Kreb’s cycle and the cytochrome system.TemperatureAnother factor affecting the cellular respiration is the temperature of the environment. Usually, the rate of cellular respiration quickens if the temperature is warmer. The lower the temperature, the slower the rate of cellular respiration is. People who live in warmer environments find it easier to restore their energy as long as there are nutrients available to convert in the body. The reason for this is the enzymes that are present in the cellular respiration process. Enzymes break down easier and then transform into energy quicker when the temperature is higher. Although the temperature affects the rate of cellular respiration, there are no studies that prove more energy production with higher temperatures. The temperature factor just affects the rate of the cellular respiration process.State of CellThe state of a cell undergoing the cellular respiration process is a factor that affects the rate of transforming nutrients into energy. Working cells, such as neurons or roots of the human hair, have a higher cellular respiration rate compared with dormant cells like seeds. This is because working cells can store extra energy in the body while dormant cells tend to stay non-motile. For this reason, plant cells do not need to store as much energy as human cells or animal cells do. This is the reason why cellular respiration in plants is a bit different from the cellular respiration process human and animal cells go through.Read more:Factors Affecting Cellular Respiration | eHow.comhttp://www.ehow.com/list_6417883_factors-affecting-cellular-respiration.html#ixzz2Q3XFRlk5
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.
No, cellular respiration is a fundamental biological process that occurs in all human cells regardless of gender. It is the process by which cells convert nutrients into energy. Gender does not influence the basic mechanisms of cellular respiration.
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Usually, the higher the temperature the faster enzymes react and the quicker a reaction moves forward, however, if the temperature gets too hot, it can denature the proteins involved in the reaction.
Weight can indirectly affect the rate of respiration. Generally, individuals with higher weight may have increased metabolic demands, leading to higher rates of respiration to meet those demands. However, weight alone is not the sole determinant of respiration rate, as factors such as fitness level, age, and overall health also play important roles.
High metabolic rate need a lot of energy. So this is supplied by respiration
Factors that affect the rate of respiration in plants include temperature, availability of oxygen, and the presence of sugars or other organic compounds that can be broken down for energy. Light intensity and the plant's metabolic activity can also influence respiration rates.
Bromothymol Blue is a pH indicator that changes color in response to acidity levels. During cellular respiration, carbon dioxide is produced, which reacts with water to form carbonic acid, lowering the pH of the solution. By measuring the color change in Bromothymol Blue, you can indirectly assess the rate of cellular respiration: a faster rate of respiration will result in a quicker color change due to increased production of carbon dioxide. Thus, monitoring the color shift provides a visual representation of the cellular respiration rate.
CPR maintains cellular respiration the same as in normal breathing and pulse rate. CPR is mechanically breathing and circulating the blood for the victim.
chemical factors in the blood