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A sodium bicarbonate rocket (sometimes called an Alka-Seltzer rocket) is a model rocket fashioned from a 35mm film canister and propelled by the generation of gas from an effervescent liquid. It is often used in science classes to demonstrate principles of chemistry and physics to students.

In the experiment, a film canister is filled with water and an effervescent tablet (commonly Alka-Seltzer) and tightly sealed. After a short time, the evolved carbon dioxide reaches sufficient pressure to cause the body of the canister to be launched into the air with a popping sound. The canister may be elaborated with paper fins to resemble more closely a real rocket. ^[1]

Lessons based around the Alka-Seltzer rocket can focus on a number of principles. For example, the students are sometimes asked to experiment with the amounts of water and Alka-Seltzer to find the combination which propels the rocket the greatest distance.^[1]^[2] Alternatively they may derive equations to calculate the speed and velocity of the rocket from the distance it travels.^[3]

In Rocketry, a chemical reaction rapidly creates gas that is expelled in one direction from its container (the rocket engine); momentum forces the rocket in the opposite direction. The alka-seltzer rocket experiment demonstrates Newton's third law. The film canister rocket has a buildup of gas that wants to come out of the weakest spot making all the gas come out at once through the hole at the bottom. The gas comes out from the underside and pushes the rocket up. After it gets pushed up, air resistance slows it down and gravity pulls it down to earth. The film canister accelerates quickly because it has very little mass. The film canister rocket uses a solid fuel mixed with a liquid fuel to create a gas that escapes out of the bottom. The gas is carbon dioxide (CO₂), the liquid is water (H₂O), and the solid is an effervescent tablet. When the H₂O is mixed with an effervescent tablet, it produces the gas CO₂. The reaction time depends on the surface area of the tablet.

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[edit] References

^ ^a ^b Jacqueline Leonard and James E. Oakley (2006). "We Have Lift Off! Integrating Space Science and Mathematics in Elementary Classrooms". Journal of Geoscience Education 54 (4): 452–457.
^ Fakhruddin, Hasan. Physics Demos And Hands-ons. Lulu.com. pp. page 68. ISBN 1411681622. http://books.google.com/books?id=iOt9VSrV1CgC&pg=PA68&dq=alka+seltzer+rocket&sig=z4v-2dJA-I9TUVJTJwV3HUuDuRo#PPA68,M1.
^ Bryan Garman (2004). "Stressed for Success". Science 306 (5702): 1685. doi:10.1126/science.1106680.

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[Leonard-0] Jacqueline Leonard and James E. Oakley (2006). "We Have Lift Off! Integrating Space Science and Mathematics in Elementary Classrooms". Journal of Geoscience Education 54 (4): 452–457.

[Fakhruddin-1] Fakhruddin, Hasan. Physics Demos And Hands-ons. Lulu.com. pp. page 68. ISBN 1411681622. http://books.google.com/books?id=iOt9VSrV1CgC&pg=PA68&dq=alka+seltzer+rocket&sig=z4v-2dJA-I9TUVJTJwV3HUuDuRo#PPA68,M1.

[Garman-2] Bryan Garman (2004). "Stressed for Success". Science 306 (5702): 1685. doi:10.1126/science.1106680.

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