Yes.
Aerobic respiration produces carbon dioxide and water. Also, oxygen is the terminal electron acceptor
In aerobic respiration, carbon dioxide is produced as a bi-product of the Kreb's cycle (also known as the TCA cycle)
Yes
water, carbon dioxide and heat.
Aerobic respiration in humans is: Glucose + Oxygen → Energy + Carbon Dioxide + Water Anaerobic respiration in humans is: Glucose → Lactic Acid + Energy
They are Carbon Dioxide, Water and energy in the form of ATP.
In Cellular (Aerobic) Respiration: Glucose + Oxygen → Carbon Dioxide + Water Carbon Dioxide and Water are produced.
Carbon dioxide is released, and heat as a by-product
Yes, both water and carbon dioxide are products of aerobic cellular respiration.
They conduct aerobic respiration. Aerobic respiration is the breakdown of food substances in the presence of oxygen to produce a large amount of energy and water and carbon dioxide.
It is called aerobic respiration. Respiration is the characteristic feature of living organisms.
aerobic respiration produces Carbon Dioxide + Water
In aerobic respiration, carbon dioxide is produced as a bi-product of the Kreb's cycle (also known as the TCA cycle)
Carbon dioxide, water and energy are produced by aerobic respiration. The word equation for aerobic respiration is: Glucose + oxygen --> carbon dioxide + water + energy Energy and lactic acid are produced by anerobic respiration The word equation for anaerobic respiration is: Glucose --> energy + lactic acid
Aerobic respiration.
They can be thought of as the 'reverse' of each other (though their repective biochemical pathways are in no ways similar) and are the two halves of the carbon cycle. Respiration: Glucose + Oxygen -> Carbon dioxide + Water Photosynthesis: Carbon dioxide + Water -> Glucose +Oxygen
Aerobic respiration forms carbon dioxide and water vapour producing glucose while anaerobic respiration forms carbon dioxide and lactic acid.
The name of the process that requires oxygen is aerobic respiration. Aerobic respiration takes in oxygen and releases carbon dioxide.