The rate of reaction in respiration depends entirely on what kind of sugar you use. Glucose or Fructose are the most efficient in respiration. Other sugars you could use include Galactose or Sorbose, both which do not help yeast to respire efficiently.
In order of reaction rate (Highest first):
Glucose,
Fructose,
Galactose,
Sorbose
i dont know wor
It increases the rate of respiration.
Anaerobic means without air, so there is no respiration.
Cellular respiration involves oxygen. Anaerobic means an absence of oxygen.
Anaerobic respiration.The process is also called fermentation, but this term is used in different ways by different people. Anaerobic respiration in plants and yeast, for example, is often called ethanol fermentation, and in animals the equivalent process is lactic acid fermentation.
anaerobic cellular respiration has 3 different stages, and their final electron acceptors are: pyruvate oxidation- NAD+ Krebs cycle- NAD+, FAD+ electron transport chain- Oxygen
Aerobic means respiration that occurs with oxygen and anaerobic means without oxygen. They are both used by different muscles in our bodies. Aerobic is used by Fast Twitch Type B, and anaerobic by Fast Twitch Type A and Slow Twitch muscles.
Anaerobic means without air, so there is no respiration.
The steps of cellular respiration is different when it is anaerobic respiration compared to aerobic respiration. The main difference is because aerobic respiration uses oxygen and anaerobic uses other elements but the other steps are similar.
Cellular respiration involves oxygen. Anaerobic means an absence of oxygen.
aerobic respiration uses oxygen and anaerobic doesn't; also aerobic produces more ATP or cellular energy***Apex: Oxygen is necessary for aerobic respiration but not for anaerobic respiration.
aerobic respiration uses oxygen and anaerobic doesn't; also aerobic produces more ATP or cellular energy***Apex: Oxygen is necessary for aerobic respiration but not for anaerobic respiration.
As Anaerobic respiration takes place in two different processes so we have different products according to the process.In the case of alcoholic fermentation (such as in yeast), alcohol (C2H5OH) and CO2 are produced as the main products of anaerobic respiration.In case of lactic acid fermentation (e.g in muscle cells of humans) pyruvic acid is converted into lactic acid (C3H6O3)in anaerobic respiration.
Aerobic respiration requires oxygen, whereas anaerobic respiration occurs in the absence of oxygen. Aerobic respiration is completed in three steps viz, Glycolysis, Kreb's Cycle and Electron transport chain; whereas anaerobic respiration is completed in Glycolysis. Aerobic respiration involves carbon dioxide as the major excretory by-product, whereas in anaerobic respiration, along with carbon dioxide, ethyl alcohol (in case of plants) and lactic acid (in case of animals) is liberated.
aerobic bacteria use oxygen based respiration, anaerobic bacteria use either nonoxygen based respiration (e.g. nitrogen, sulfur) or fermentation.
Anaerobic respiration.The process is also called fermentation, but this term is used in different ways by different people. Anaerobic respiration in plants and yeast, for example, is often called ethanol fermentation, and in animals the equivalent process is lactic acid fermentation.
As Anaerobic respiration takes place in two different processes so we have different products according to the process.In the case of alcoholic fermentation (such as in yeast), alcohol (C2H5OH) and CO2 are produced as the main products of anaerobic respiration.In case of lactic acid fermentation (e.g in muscle cells of humans) pyruvic acid is converted into lactic acid (C3H6O3)in anaerobic respiration.
The products of aerobic respiration are water and carbon dioxide. The products of anaerobic respiration are carbon dioxide and either lactic acid or alcohol. The waste product of anaerobic respiration is lactic acid (in animals). In plants, ethanol is the waste product.
anaerobic cellular respiration has 3 different stages, and their final electron acceptors are: pyruvate oxidation- NAD+ Krebs cycle- NAD+, FAD+ electron transport chain- Oxygen