According to Graham's Law, diffusion rate of a gas is inversely proportional to the square root of the molar mass of that gas. Put another way, the heavier the gas, the slower it will diffuse. CO is 28; SO2 is 64; NO2 is 46; O3 is 48. So the slowest to diffuse would be SO2.
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.
Propane and carbon dioxide diffuse at the same rate at room temperature and pressure because they have similar molecular weights and sizes. This means that they experience similar intermolecular forces and collisions with air molecules, leading to similar diffusion rates. Additionally, both gases follow 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.
If the level of carbon dioxide increases, the repiratory centers are signaled to increase the rate and depth of breathing. This will result in the return of normal CO2 (carbon dioxide) and slows the breathing rate.
If the blood concentration of carbon dioxide increases, the breathing rate is most likely to increase. This occurs as a response to remove excess carbon dioxide from the body and maintain a balance of oxygen and carbon dioxide levels in the blood.
According to Graham's Law, diffusion rate of a gas is inversely proportional to the square root of the molar mass of that gas. Put another way, the heavier the gas, the slower it will diffuse. CO is 28; SO2 is 64; NO2 is 46; O3 is 48. So the slowest to diffuse would be SO2.
A) additional oxygen will diffuse into the blood as carbon dioxide diffuses out of the blood in the lungs
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.
if you mean pure nitrogen (as a gas ), then no. for plants to grow they need light (obviously) water nutrients (garden fertilizer will do) and carbon dioxide increasing the carbon dioxide levels will greatly increase he growth rate of your plant(s), and can be easily made by burning things
Exhaled air typically contains around 4-5% carbon dioxide. The majority of exhaled air is nitrogen, followed by oxygen and then carbon dioxide. This percentage can vary depending on factors such as metabolic rate and lung function.
You can find the rate of carbon dioxide production by doing an experiment to show the rate of carbon dioxide,You do this by counting the number of bubbles produced per minute.Increasing any key factor will increase the rate...
Propane and carbon dioxide diffuse at the same rate at room temperature and pressure because they have similar molecular weights and sizes. This means that they experience similar intermolecular forces and collisions with air molecules, leading to similar diffusion rates. Additionally, both gases follow 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.
Oxygen diffuses at the same rate as nitrogen. This is because both gases have similar molecular weights and sizes, allowing them to diffuse at a similar rate through a medium.
The rate of respiration is determined by the levels of oxygen and carbon dioxide in the blood. The main controller of the rate of respiration is the brain.
If the level of carbon dioxide increases, the repiratory centers are signaled to increase the rate and depth of breathing. This will result in the return of normal CO2 (carbon dioxide) and slows the breathing rate.
If the level of carbon dioxide increases, the repiratory centers are signaled to increase the rate and depth of breathing. This will result in the return of normal CO2 (carbon dioxide) and slows the breathing rate.
If the blood concentration of carbon dioxide increases, the breathing rate is most likely to increase. This occurs as a response to remove excess carbon dioxide from the body and maintain a balance of oxygen and carbon dioxide levels in the blood.