Carbon dioxide diffuses faster than sulfur dioxide because carbon dioxide is lighter and has a lower molecular weight, allowing it to move more quickly through the air. Additionally, carbon dioxide molecules are smaller in size, which also contributes to their faster diffusion rate.
The body can increase the rate at which carbon dioxide is excreted through faster breathing, which helps expel carbon dioxide from the lungs more quickly. This can be triggered by factors such as exercise, stress, or metabolic changes that increase the body's production of carbon dioxide.
Argon would effuse faster through a hole than Krypton because it has a lower molar mass. According to Graham's law of effusion, lighter gases effuse more rapidly than heavier gases. Since argon has a molar mass of about 40 g/mol, while krypton has a molar mass of about 84 g/mol, the lighter argon molecules will move through the hole at a higher rate.
Photosynthesis is a processes plants use to harness the energy of light to convert carbon dioxide (CO2) & water into the simple sugar glucose. The larger the amount of co2, the more oxygen will be produced.
Plants grow better if the amount of carbon dioxide in the air increases because plants breathe in carbon dioxide in order to use it in their life process. Plants expel oxygen, and people expel carbon dioxide, plants and people are one of natures perfect symbiotic relationships.
Helium diffuses twice faster as Methane does.
Hydrogen will effuse approximately four times faster than carbon dioxide under the same conditions of temperature and pressure. This is because effusion rate is inversely proportional to the square root of molar mass, and hydrogen has a much lower molar mass than carbon dioxide.
Effusion goes as the inverse square root of the molecular weight (Graham's Law). The rest is simple algebra.
Carbon monoxide (CO) diffuses faster than carbon dioxide (CO2) because it has a lower molecular weight and size, allowing it to move more quickly through a medium.
Carbon dioxide diffuses faster than sulfur dioxide because carbon dioxide is lighter and has a lower molecular weight, allowing it to move more quickly through the air. Additionally, carbon dioxide molecules are smaller in size, which also contributes to their faster diffusion rate.
In an atmosphere of carbon dioxide, warm carbon dioxide would rise. Since carbon dioxide is better than twice as dense as air, it would need to be really hot before it would rise.
No, oxygen does not effuse 1.07 times faster than nitrogen. The effusion rate of a gas is inversely proportional to the square root of its molar mass, so the effusion rate of oxygen would be √(Molar mass of nitrogen / Molar mass of oxygen) ≈ √(28.02 / 32) ≈ 0.91 times faster than nitrogen.
It becomes faster, in order to get reed of extra carbon bi oxide.
Carbon dioxide
Plants absorb and feed off of carbon dioxide, so it will grow faster.
Hydrogen would effuse the fastest because it has the lowest molar mass among the gases mentioned. Effusion rate is inversely proportional to the square root of molar mass, so lighter gases effuse faster.
This gas is hydrogen, a gas with small molecules.