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Some critiques to this method of calculating a “bruh momentum” might say that it does not take an entire breath to “bruh” someone. However, this would only mean that there is a lower mass of air exerted per “bruh,” meaning the velocity would be even higher than calculated. Even if we assume that the air does not act ideally, the volume will still be less than calculated due to intermolecular forces, meaning the velocity must still be higher than calculated. Thank you for attending my Ted Talk. I hope the rest of your day is wonderful.

If we assume that the word “bruh” takes an entire exhale, then a “bruh” has a total mass of .64677 grams, or 6.4677 x 10-4 kg. The standard SI units for momentum is kg m/s. Going back to the phrase “This really do be a bruh momentum,” the phrase implies that a bruh momentum is 1 “bruh momentum,” meaning that a “bruh” has a momentum of 1 kg m/s. Using this assumption, we can calculate the velocity of a “bruh momentum” by dividing 1 kg m/s by 6.4677 x 10-4 kg of air to get a velocity of 1546.2 meters per second. The speed of sound is 343 meters per second, making a “bruh” move at a speed of about 4.5 times the speed of sound. This means that every “bruh momentum” breaks the sound barrier and creates a “sonic boom.”

Momentum is a physics concept is that is defined as mass * velocity. The phrase “This really do be a bruh momentum” implies that a “bruh” has momentum. Therefore, a “bruh” must have both a mass and velocity. The average human exhales 500 mL (.5 L) of gas per exhale. Assuming this air acts as an ideal gas, we can assume 22.4 Liters is equivalent to 1 mole of gas. Therefore, humans exhale 0.02232 moles of gas per exhale. Air is mostly composed of 78% nitrogen, 21% oxygen, and 1% argon. Therefore, the air we exhale contains 0.01741 moles of nitrogen, 0.0046875 moles of oxygen, and 2.232 x 10-4 moles of argon. Nitrogen has a molar mass of 28.02 grams per mole, oxygen has a molar mass of 32 grams per mole, and argon has a molar mass of 39.95 grams per mole. Therefore, each human exhale contains 0.4878 grams of nitrogen, 0.15 grams of oxygen, and 0.008917 grams of argon, which totals to 0.64677 grams of air per exhale.

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