Anaerobic cellular respiration produces the most energy

This method still incorporates the respiratory electron transport chain but without using oxygen as the terminal electron acceptor. Aerobic respiration uses oxygen.

Key to remember glucose and oxygen are produced so thats what we have to work with.

Anaerobic cellular respiration produces the most energy. Anaerobic cellular respiration produces the most energy. Anaerobic cellular respiration produces the most energy. Was asked on May 31 2017.

View the answer now. QA Biology Anaerobic cellular respiration produces the most energy. Aerobic means with air.

Therefore aerobic respiration is the process of cellular respiration that uses oxygen to produce energy from food. This type of respiration is common in most of the plants and animals including humans birds and other mammals. Anaerobic respiration is the formation of ATP without oxygen.

This method still incorporates the respiratory electron transport chain but without using oxygen as the terminal electron acceptor. Instead molecules such as sulfate SO 4 2- nitrate NO 3 or sulfur S are used as electron acceptors. These molecules have a lower reduction potential than oxygen.

Thus less energy is formed per molecule of. Which type of respiration produces the most energy. Aerobic Respiration generally in animals.

Anaerobic respiration produces a net gain of 2 ATP per glucose moleculesAerobic cellular respiration produces 15 times more energy from sugar than anaerobic cellular respiration. Aerobic respiration uses oxygen. Aerobic respiration produces much more ATP than anaerobic respiration.

Aerobic respiration takes place inside the mitochondria anaerobic respiration takes place inside the cytoplasm. Since there is more energy available it is not surprising that the cell is able to produce more ATP from aerobic respiration than from anaerobic respiration. From these numbers and knowing that anaerobic respiration produces 2 net ATP per glucose and aerobic respiration produces either 30 or 32 net ATP per glucose you can conclude that aerobic respiration is somewhat more efficient than anaerobic.

The energy yield in terms of ATP is higher in aerobic respiration than during anaerobic respiration. Asked Feb 15 2018 in Class XI Biology by rahul152 Expert 84k points respiration in plants. Which of these equations describes aerobic cellular respiration.

A glucose lactose galactose water B glucose ethyl alcohol carbon dioxide energy C glucose oxygen carbon dioxide water energy D glucose lactic acid energy E energy carbon dioxide water glucose oxygen water. Cellular energy compound which contains two phosphate molecules and one high energy bound ADP a stage of cellular respiration that occurs in the matrix and produces 2 ATP. Aerobic respiration is 19 times more effective at releasing energy than anaerobic respiration because aerobic processes extract most of the glucose molecules energy in the form of ATP while anaerobic processes leave most of the ATP-generating sources in the waste products.

The energy yield in terms of ATP is higher in aerobic respiration than during anaerobic respiration. Anaerobic metabolism produces only one-nineteenth of the yield of the high-energy phosphate molecule adenosine triphosphate ATP per mole of glucose compared with aerobic metabolism page 191. In organs with a high metabolic rate such as the brain it is impossible to increase glucose transport sufficiently to maintain the normal level of.

We review their content and use your feedback to keep the quality high. False because Aerobic respiration creates more ATP than Anaerobic respiration. ATP is most closely associated with energy.

False statement is - the inner mitochondrial membrane plays. The maximum amount of free energy released during cellular respiration is -686 kcal per mole of glucose. What does this mean.

• higher potential energy in reactants than products. Photosynthesis and cellular respiration-the circle of lifes energy. To reduce entropy and perform work life requires energy.

In almost all ecosystems energy ultimately comes from the sun which is why we studied photosynthesis first. Key to remember glucose and oxygen are produced so thats what we have to work with. When oxygen is not available the Krebs cycle and electron transport cannot proceed and glycolysis produces just 2 ATP molecules per glucose molecule.

Under aerobic conditions the Krebs cycle and electron transport enable the cell to produce 34 more ATP molecules per glucose molecule. The anaerobic cellular respiration process is the sole cycle for production of energy for many anaerobic bacteria. Many eukaryotic cells also switch on their anaerobic respiration process in case the oxygen supply is low.

The best example for this process in eukaryotic cells is the human muscles. ATP stores the energy needed to power cellular functions. With aerobic respiration the pyruvate generated from glycolysis goes through an additional series of biochemical reactions to generate more ATP.

This does not occur with anaerobic respiration. Anaerobic respiration is an anaerobic process that converts organic food into simpler chemicals and produces chemical energy ATP. The electron transport chain mechanism is used by some kinds to convey electrons to the final electron acceptor.