No, the amount of oxygen (O2) taken in during respiration is greater than the amount of carbon dioxide (CO2) produced. Oxygen is used to break down glucose for energy, while carbon dioxide is a byproduct of this process and is expelled from the body during exhalation.
It will take O2 gas. It will emit CO2 in the night.
It's the same chemical reaction in reverse. (sugar + O2 = H2O + CO2)
The gas taken in by photosynthesis is carbon dioxide (CO2), while the gas produced is oxygen (O2).
The balanced chemical equation for the reaction of CH4 and O2 to produce CO2 is: CH4 + 2O2 -> CO2 + 2H2O First, calculate the limiting reactant by converting the given masses of CH4 and O2 to moles. Then, use the stoichiometry of the reaction to determine the maximum amount of CO2 that can be produced, based on the limiting reactant.
It is same as combustion. O2 is involved and CO2 is produced
-amount of water -amount of sunlight -amount of O2/CO2 in the air -light intensity
Yes indeed! CO2 is in fact the same as carbon dioxide. The "C" in CO2 is the elemental symbol for "Carbon". The "O2" means that there are TWO oxygen molecules.
It will take O2 gas. It will emit CO2 in the night.
It's the same chemical reaction in reverse. (sugar + O2 = H2O + CO2)
The gas taken in by photosynthesis is carbon dioxide (CO2), while the gas produced is oxygen (O2).
The balanced chemical equation for the reaction of CH4 and O2 to produce CO2 is: CH4 + 2O2 -> CO2 + 2H2O First, calculate the limiting reactant by converting the given masses of CH4 and O2 to moles. Then, use the stoichiometry of the reaction to determine the maximum amount of CO2 that can be produced, based on the limiting reactant.
It is same as combustion. O2 is involved and CO2 is produced
No, carbon dioxide (CO2) binds to a different site on hemoglobin than oxygen (O2). CO2 primarily binds to the amino groups of the protein portion of hemoglobin, forming carbaminohemoglobin. This is an important way that CO2 is transported in the blood.
co2 and o2
This reaction is:2 CO2 = 2 CO + O2
The amount of CO2 in the air was decreased and levels of O2 rose because blue-green algae (cyanobacteria) used the CO2 to form carbohydrates by means of the Calvin cycle and replaced it with O2 as a product of photosynthesis
On a warm sunny day, plants undergo photosynthesis at a faster rate, leading to an increase in oxygen (O2) production and a decrease in carbon dioxide (CO2) levels as they use it for photosynthesis. This can contribute to a higher amount of oxygen and lower amount of carbon dioxide in the atmosphere during the day.