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Graham's Law Effusion Rate Calculator

Gas 1 Name (Optional)

Molar Mass of Gas 1 (g/mol)

Known Rate of Gas 1 (Optional)

Gas 2 Name (Optional)

Molar Mass of Gas 2 (g/mol)

Effusion Ratio (r₁ / r₂):

Calculated Rate of Gas 2:

How to Calculate Effusion Rate of a Gas

Effusion is the process where gas molecules pass through a tiny hole into a vacuum or a region of lower pressure. Unlike diffusion, which involves the spreading of gas molecules throughout a space, effusion focuses on the escape rate through a specific aperture. Calculating the effusion rate is essential in chemistry and physics, particularly when separating isotopes or determining the molar mass of unknown gases.

This calculator utilizes Graham's Law of Effusion to determine the relative rates at which two gases effuse based on their molar masses.

Graham's Law Formula

Graham's Law states that the rate of effusion of a gas is inversely proportional to the square root of its molar mass. When comparing two gases, Gas A (Rate 1) and Gas B (Rate 2), the formula is:

Rate₁ / Rate₂ = √(M₂ / M₁)

Where:

Rate₁: Effusion rate of the first gas.
Rate₂: Effusion rate of the second gas.
M₁: Molar mass of the first gas (g/mol).
M₂: Molar mass of the second gas (g/mol).

Interpretation of Results

The calculation reveals the inverse relationship between mass and speed:

Lighter gases (lower molar mass) effuse faster.
Heavier gases (higher molar mass) effuse slower.

For example, if the ratio is 2, it means Gas 1 effuses twice as fast as Gas 2.

Common Gas Molar Masses

To help you use the calculator, here are the approximate molar masses of common gases used in effusion experiments:

Gas Name	Chemical Formula	Molar Mass (g/mol)
Hydrogen	H₂	2.02
Helium	He	4.00
Methane	CH₄	16.04
Nitrogen	N₂	28.02
Oxygen	O₂	32.00
Carbon Dioxide	CO₂	44.01

Step-by-Step Calculation Example

Let's calculate the effusion rate comparison between Helium (He) and Methane (CH₄).

Identify Molar Masses:
- Molar Mass of Helium (M₁) = 4.00 g/mol
- Molar Mass of Methane (M₂) = 16.04 g/mol
Apply Graham's Law:
Ratio = √(16.04 / 4.00)
Calculate the Division:
16.04 / 4.00 = 4.01
Take the Square Root:
√4.01 ≈ 2.002
Conclusion:
Helium effuses approximately 2 times faster than Methane. If Methane effuses at 10 mL/s, Helium would effuse at roughly 20 mL/s.

Calculating Rate from Volume and Time

If you do not have the rate directly, you can calculate the individual rate of a single gas using the formula:

Rate = Volume of Gas / Time

Ensure you use consistent units (e.g., liters per minute or milliliters per second) when inputting these values into comparison equations.