oxygen
Sulfur dioxide diffuses faster than CO2 because sulfur dioxide has a lighter molecular weight and a smaller size compared to CO2. This allows sulfur dioxide molecules to move more quickly and easily through a medium, resulting in faster diffusion rates.
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.
To find the molecular weight of gas Q, we can use Graham's law of diffusion. The rate of diffusion is inversely proportional to the square root of the molecular weight. Since chlorine diffuses 2.04 times faster than gas Q, we set up the equation (rate of Q)/(rate of Cl2) = sqrt(Molecular weight of Cl2 / Molecular weight of Q), then solve for the molecular weight of gas Q.
Carbon dioxide (CO2) is a gas that naturally occurs in the Earth's atmosphere. It is composed of one carbon atom bonded to two oxygen atoms. So, CO2 itself is a gas and does not have gas inside of it.
No, the diffusion rate of oxygen and bromine is not the same. Oxygen, being a smaller and lighter molecule, diffuses faster than bromine, which is larger and heavier. This is based on Graham's law of diffusion, which states that the rate of diffusion of a gas is inversely proportional to the square root of its molar mass.
CO diffuses faster than CO2 because it is a smaller molecule
Sulfur dioxide diffuses faster than CO2 because sulfur dioxide has a lighter molecular weight and a smaller size compared to CO2. This allows sulfur dioxide molecules to move more quickly and easily through a medium, resulting in faster diffusion rates.
Co2
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.
Oxygen diffuse faster.
Chlorine gas diffuses the fastest among the gases listed. This is because gases with lower molar masses diffuse faster, and chlorine gas has the lowest molar mass among the options provided.
If the gas diffuses 1.86 times faster than xenon (Xe), and using Graham's Law of Diffusion where the rate of diffusion is inversely proportional to the square root of its molar mass, the gas is likely to be helium (He). Helium has a much lower molar mass compared to xenon, which would allow it to diffuse faster.
Ammonia gas diffuses faster than hydrogen chloride gas due to its lower molar mass and higher diffusion coefficient. The lighter ammonia molecules move quicker and spread out faster than the heavier hydrogen chloride molecules in a given amount of time.
Ammonia diffuses faster than methane due to its lighter molecular weight and its smaller size. This allows ammonia molecules to move more quickly through a medium, such as air or another gas, compared to methane molecules.
Oxygen gas diffuses faster than air because air is a mixture of gases that includes nitrogen, oxygen, carbon dioxide, and other gases, which can affect the overall diffusion rate. Oxygen, being a pure gas, has a higher diffusion rate compared to air.
The rate of diffusion of a gas is inversely related to the molecular weight of that gas. The lighter the gas, the faster it diffuses. Hydrogen is the lightest of all gases having a molecular weight of only 2. Thus it diffuses faster than all others.
Gas exchange for photosynthesis - CO2 from the air diffuses into the leaf, and 02 diffuses out of the leaf into the air