Oxygen, water vapor, carbohydrates, and carbon dioxide
Oxygen and carbon dioxide.
carbon dioxide, water, sugars, and oxygen
my name is BOB>
Cellular respiration is important to the biosphere because during the process, carbon dioxide is given off. This carbon dioxide can be used by plant cells during photosynthesis to form new carbohydrates. Also in the process of cellular respiration, oxygen gas is required to serve as an acceptor of electrons
Photosynthesis and cellular respiration are similar in the sense that they are simply (and only when talking about the SIMPLE aspect of it) the opposites of each other.EX -- 6 CO2+ 6 H2O → C6H12O6+ 6 O2 is the formula for photosynthesis.C6H12O6+ 6 O2→ 6 CO2+ 6 H2O is the formula for cellular respiration.LITERALLY.They are different because the actual processes and cycles that happen during photosynthesis and cellular respiration (respectively) are completely different.PS - light dependent reactions and Calvin cycleCR - Krebs cycle and electron transport chain
If oxygen were not produced during photosynthesis then organisms could not perform cellular respiration. This means that they couldn't produce carbon dioxide which would make the plants unable to undergo photosynthesis.
C02 (carbon dioxide), some o2 (oxygen), and a little nitrogen occasionally.
Because these are the three elements that help the plant to produce important compounds. They get these elements from the soil. ____________________________________________ N = Nitrates- Nitrates contain Nitrogen. P = Phosphates- Phosphates contain Phosphorus. K = Potassium- These help the enzymes which are needed for photosynthesis and respiration
Yes, it most definitely would. Both oxygen and carbon dioxide, which are essential elements in the processes of photosynthesis and cellular respiration, are both found in water. Oxygen and CO2 are found dissolved in the water, and can hence be used by underwater plants, such as seaweed.
Cellular respiration is important to the biosphere because during the process, carbon dioxide is given off. This carbon dioxide can be used by plant cells during photosynthesis to form new carbohydrates. Also in the process of cellular respiration, oxygen gas is required to serve as an acceptor of electrons
it releases elements
Photosynthesis and cellular respiration are similar in the sense that they are simply (and only when talking about the SIMPLE aspect of it) the opposites of each other.EX -- 6 CO2+ 6 H2O → C6H12O6+ 6 O2 is the formula for photosynthesis.C6H12O6+ 6 O2→ 6 CO2+ 6 H2O is the formula for cellular respiration.LITERALLY.They are different because the actual processes and cycles that happen during photosynthesis and cellular respiration (respectively) are completely different.PS - light dependent reactions and Calvin cycleCR - Krebs cycle and electron transport chain
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.
If oxygen were not produced during photosynthesis then organisms could not perform cellular respiration. This means that they couldn't produce carbon dioxide which would make the plants unable to undergo photosynthesis.
Consider the reaction that occur during photosynthesis and respiraton and predict which elements are found in sugar
Towards the beginning of cellular respiration oxygen forms many bonds that create sugars, so two of the elements would be carbon and hydrogen. However oxygen molecules also bonds with H+ ions around the end of cellular respiration to form water.
Cellular respiration.
All living organisms on Earth undergo cell respiration. There are two general types of cellular respiration processes: anaerobic and aerobic respiration. When oxygen is present, it acts as one of the primary elements in driving the process of cell respiration forward. This type of cell respiration (i.e. when oxygen is present) is known as aerobic respiration.Anaerobic respiration refers to the breakdown of molecules in the absence of oxygen to produce energy. These processes require another electron acceptor to replace oxyg
CO2,H2O and O2.
Generally, the food you eat and the fat stored in your body. Specifically, it is derived from chemical processes such as cellular respiration that create ATP (adenosine triphosphate) and other energy storing molecules. These processes are possible because of the amino acids and elements/molecules that form the proteins/carbs/etc. that are found in the food that you ingest.