What are the reactants and products of aerobic cellular respiration?
|Oxidation of glucose||Complete|
|Reactants of respiration||Glucose and oxygen|
|Products of respiration||Carbon dioxide and water (and ATP)|
|Amount of ATP made||Large amount|
What are the reactants for cellular respiration H2O and o2 glucose and CO2 H2O and CO2 glucose and o2?
Carbon dioxide + Water Glucose (sugar) + Oxygen CO2 + H2O C6H12O6 + 6O2 Cellular respiration or aerobic respiration is a series of chemical reactions which begin with the reactants of sugar in the presence of oxygen to produce carbon dioxide and water as waste products.
What is aerobic respiration used for?
Aerobic respiration provides energy to fuel all cellular processes. The reactions produce ATP, which is then used to power other life-sustaining functions, including growth, repair, and maintenance.
Where does oxygen for aerobic respiration come from?
Glucose and oxygen react together in cells to produce carbon dioxide and water and releases energy. The reaction is called aerobic respiration because oxygen from the air is needed for it to work.
What is aerobic respiration with example?
Aerobic Respiration: It is the process of cellular respiration that takes place in the presence of oxygen gas to produce energy from food. This type of respiration is common in most of the plants and animals, birds, humans, and other mammals. In this process, water and carbon dioxide are produced as end products.
What are the two main differences between aerobic and anaerobic respiration?
Aerobic respiration needs oxygen to occur, while anaerobic does not. This presence of oxygen determines what products will be created. During aerobic respiration, carbon dioxide, water, and ATP are produced. During anaerobic respiration, lactic acid, ethanol, and ATP are created
What are the similarities and differences between anaerobic respiration in animal and yeast cells?
Anaerobic bacteria can sustain itself without the presence of oxygen. Almost all animals and humans are obligate aerobes that require oxygen for respiration, whereas anaerobic yeast is an example of facilitative anaerobe bacteria
What gives the comparison between anaerobic respiration in humans and in yeast?
However, the process of anaerobic respiration in yeast cells is different from that occurring in human muscle cells. In yeast cells, ethanol is produced as a waste product of anaerobic respiration. In human muscle cells, lactic acid is produced as a waste product of anaerobic respiration.
Where does aerobic respiration occur?
Aerobic vs anaerobic respiration
|Location||Cytoplasm (glycolysis) and mitochondria||Cytoplasm|
|Stages||Glycolysis (anaerobic), Krebs cycle, oxidative phosphorylation||Glycolysis, fermentation|
|ATP produced||Large amount (36 ATP)||Small amount (2 ATP)|
How do bacteria perform aerobic respiration?
Many prokaryotes, small simple cells like bacteria, can perform aerobic cellular respiration. These cells will move electrons back and forth across their cell membrane. Other types of prokaryotes cannot use oxygen to perform cellular respiration, so they perform anaerobic respiration.
Why is aerobic and anaerobic respiration important in everyday life?
Aerobic respiration produces far more ATP, but risks exposure to oxygen toxicity. Anaerobic respiration is less energy-efficient, but allows survival in habitats which lack oxygen. Within the human body, both aerobic and anaerobic respiration are important to muscle function
What sports use both aerobic and anaerobic respiration?
Some activities require a combination of anaerobic and aerobic exercises. For example, according to 2015 study in the Sport Journal, playing hockey includes both anaerobic and aerobic activity. Hitting a puck uses anaerobic energy, while skating across the ice rink uses aerobic energy
Are Push Ups aerobic or anaerobic?
Aerobic exercise (also known as cardiovascular exercise) builds your endurance. Anaerobic exercise typically means activities such as weightlifting and push-ups and sit-ups, which builds muscle and physical strength through short bursts of strenuous activity.