Carbon dioxide diffuses most rapidly among the gases listed. This is because carbon dioxide has a lower molecular weight and smaller size compared to methane, nitrogen, oxygen, and chlorine, enabling it to diffuse more quickly through a medium.
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 dioxide (CO2).
Carbon dioxide is a colorless gas at room temperature and pressure. It is not hard in the traditional sense of the word.
Carbon dioxide is the gas produced when a carbonate undergoes thermal decomposition. This process breaks down the carbonate compound into oxides and carbon dioxide gas.
Carbon monoxide (CO) diffuses faster than carbon dioxide (CO2) because CO molecules are smaller and lighter than CO2 molecules, allowing them to move more quickly through a medium.
Oxygen diffuses into cells. Carbon dioxide diffuses out.
Methane will diffuse faster than carbon dioxide. This is because methane has a lower molar mass compared to carbon dioxide, which allows it to diffuse more rapidly through a medium.
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.
Carbon dioxide diffuses most rapidly among the gases listed. This is because carbon dioxide has a lower molecular weight and smaller size compared to methane, nitrogen, oxygen, and chlorine, enabling it to diffuse more quickly through a medium.
Oxygen and carbon dioxide move into and out of cells through diffusion. Oxygen diffuses into cells to be used in cellular respiration, while carbon dioxide diffuses out of cells as a waste product of this process.
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.
The function of the alveoli is to allow gas exchange with the blood and lungs. It takes in the carbon dioxide and then diffuses it.
Both oxygen and carbon dioxide diffuse from body tissues into the blood.
Gas exchange of carbon dioxide and oxygen takes place in the alveoli of the lungs. Oxygen from inhaled air enters the bloodstream through the alveolar walls, while carbon dioxide from the bloodstream diffuses into the alveoli to be exhaled.
Gas exchange occurs in the alveoli, where oxygen from inhaled air diffuses into the bloodstream and carbon dioxide from the bloodstream diffuses into the alveoli to be exhaled. The alveoli are surrounded by a network of tiny blood vessels called capillaries, allowing for efficient exchange of gases.
This is the alveoli, which are tiny air sacs in the lungs where gas exchange occurs. Oxygen diffuses from the air into the blood, while carbon dioxide diffuses from the blood into the air in the alveoli.