(Chemistry) The escape of a gas through a tiny pinhole in a container is referred to as effusion. Graham’s Law of Effusion states that the relative rate of effusion between two gases is given by this formula:

MA is the molar mass of gas A (g/mole).
MB is the molar mass of gas B (g/mole).
Using this formula, write, compile, and run a C++ program that determines the relative rate of effusion between the seven gases with molar masses listed in the following chart and nitrogen gas (N2), which has a molar mass of 14.01 g/mole:
Gas | Molar Mass (g/mole) | Relative Diffusion Rate Compared with Nitrogen (N2) |
Carbon monoxide (CO) | 28.00 |
|
Carbon dioxide (CO2) | 44.00 |
|
Nitrogen oxide (NO) | 30.01 |
|
Nitrogen dioxide (NO2) | 46.01 |
|
Oxygen (O2) | 16.00 |
|
Sulfur dioxide (SO2) | 64.07 |
|
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