The products of photosynthesis that begin cellular respiration are oxygen and glucose. This will then yield carbon dioxide and water.
The end products of the entire process of typical uncomplicated cellular respiration -->are 36 or 38 ATP, 6 oxygen molecules, 6 carbon dioxide molecules, and 6 water molecules. Photosynthesis and cellular respiration are different things though, I see that your question is under the category of photosynthesis. Photosynthesis (happens in green plants) produces glucose and oxygen. It then uses the glucose to begin cellular respiration in it's mitochondria.. plants need ATP too. They just use photosynthesis as a way of producing the sugar they need to produce ATP...just like we eat sugar for our energy production (cellular respiration)
Glucose and oxygen
NADH and FADH 2 among other molecules. Where do these molecules come from
The only product of the Calvin Cycle is 1 molecule of glucose every two turns. It is used to begin the process of Cellular respiration through Glycolysis and is basically used for food to create ATP.
In order for cellular respiration to begin, two ATP molecules must be used up in order to breakdown the glucose molecule. Fortunately, the net gain of ATP from the first stage of cellular respiration, glycolysis, is 2 ATP. So even if oxygen is not present and fermentation has to occur, ATP is still made and not lost. However, if cellular respiration proceeds to the Krebs Cycle and carries out it's desired function, then a net gain of 36 ATP molecules will be made.
The end products of the entire process of typical uncomplicated cellular respiration -->are 36 or 38 ATP, 6 oxygen molecules, 6 carbon dioxide molecules, and 6 water molecules. Photosynthesis and cellular respiration are different things though, I see that your question is under the category of photosynthesis. Photosynthesis (happens in green plants) produces glucose and oxygen. It then uses the glucose to begin cellular respiration in it's mitochondria.. plants need ATP too. They just use photosynthesis as a way of producing the sugar they need to produce ATP...just like we eat sugar for our energy production (cellular respiration)
Photosynthesis produces water and oxygen plus energy. It uses carbon dioxide and water to begin the process.
Cellular respiration begins with the transportation of glycolysis into the mitochondria. The final step of cellular respiration will either be fermentation or an electron transport chain depending on whether it is anaerobic or aerobic respiration.
Glucose and oxygen begin the process of respiration.
no
Glucose and oxygen
NADH and FADH 2 among other molecules. Where do these molecules come from
Cellular respiration is the production of energy within a cell. Aerobic respiration requires O2 but is significantly more efficient than anaerobic respiration (without oxygen). In humans we cannot maintain life on anaerobic respiration alone, it is used for short periods of time to maintain small amounts of ATP that are required to begin aerobic respiration.
Cellular Respiration is when cells get energy from carbohydratesso, the difference beween this and a fire is that this happens inside your body from carbohydrates
The only product of the Calvin Cycle is 1 molecule of glucose every two turns. It is used to begin the process of Cellular respiration through Glycolysis and is basically used for food to create ATP.
Yes. Pea and bean seeds may even begin germinating during the experiment. Main concepts All cells (plants and animals) perform cellular respiration to maintain homeostasis and grow.
In order for cellular respiration to begin, two ATP molecules must be used up in order to breakdown the glucose molecule. Fortunately, the net gain of ATP from the first stage of cellular respiration, glycolysis, is 2 ATP. So even if oxygen is not present and fermentation has to occur, ATP is still made and not lost. However, if cellular respiration proceeds to the Krebs Cycle and carries out it's desired function, then a net gain of 36 ATP molecules will be made.