Description:
This is a building event.  Teams will build ahead of time up to 2 water rockets using a CARBONATED BEVERAGE BOTTLE pressure vessel capable of carrying an egg payload (the Egg-O-Naut). At the competition, teams will have up to 5 minutes to launch their rocket(s) with egg payload for the greatest time aloft with a surviving egg. Only one launch is allowed per rocket, so teams only bringing one rocket will only be allowed one launch.  No logs are required for this event. 

Materials:
Teams MUST bring safety spectacles and their rocket(s). If bottle labels have been removed, teams must also bring those. Teams may also bring a funnel for the water and any materials required to adjust the rocket/ install the Egg-O-Naut, and to also remove the egg-o-naut for inspection after launch.

Event leaders will provide water, the Egg-O-Naut (grade A large chicken egg marked with sharpie), the official scoresheet, and testing equipment.

Scoring:
High score wins. The best single rocket score will be used for teams launching 2 rockets. Points are earned for time aloft (in seconds), separation of the Egg-O-Naut from the pressure vessel (3 pts), and retrieval of a surviving egg (15 pts).

Common Mistakes:

• The number one mistake made by teams is not using a CARBONATED bottle for the pressure vessel. Carbonated bottles are required because they are pressure tested by the manufacturer against defects. Non-carbonated bottles are NOT tested, and are NOT allowed, even if they come in a 2 liter size. Other parts of the rocket such as nosecones and fins may be made from non-carbonated bottles, but the pressure vessel MUST be carbonated. This is a serious safety issue, and rockets that violate this requirement wil not be allowed to launch at all. It is a safety disqualification that will NOT be arbitrated.
• Be sure that the pressure bottle remains intact. If you are unsure of what a glue will do to your pressure vessel, test it on an identical bottle first. Also, repeated testing and hard landings can damage your pressure bottle. Check it frequently for scratches and weak spots that may be compromising the structural integrity, and replace the bottle as needed.
• Find the ideal water level for your rocket. While 100% air will give you the maximum potential energy, it has very little mass and therefore very little momentum to carry the rocket. Likewise, 100% water will have great mass, but very little potential energy to give it momentum. Don't wait til the day of the competition to decide how much water to use!
• If you remove the label from your pressure bottle, be sure to bring it to the competition or you will not be allowed to launch the rocket.
• Remember, only one launch is allowed per rocket! If you want to utilize both launch attempts, you must bring a second rocket!

Recommendations:

• Safety goggles (the chemical splash kind that most schools have) have a tendency to fog up, making it hard to see. This event only requires safety spectacles, meaning the kind that look like sunglasses will work just fine. These are MUCH easier to see out of. Your local home improvement store carries cheap versions for under $4.
• For transporting rockets with less risk of damage, glue/screw a bottlecap to a wood base and simply screw your rocket onto it to make it stand up. For added protection, place this entire setup inside a 5 gallon bucket to protect fins, etc.
• If you are concerned about the integrity of a bottle that you have found to use for your pressure vessel (It looks unaltered but you're just not sure) you can pressure test it. To do this, fill the bottle completely with water. This ensures that the amount of air (and potential energy) inside is minimal, so that if the bottle does fail it should simply rupture and not explode. Then pressurize it to 1 1/2 times the competition psi (competition requires 75 psi, so test to 110psi). While this is not a way to bypass safety regulations, it can give you peace of mind and save you a lot of build time by preventing building on a damaged bottle.
• Rather than trying to cut holes through your rocket's non- pressurized plastic components, use a hot needle or hot ice pick to poke a hole with smooth, rounded edges.

Fast Facts:

• The driving force behind a rocket launch is the combination of air and water under pressure. The air that you pump into the bottle compresses, giving you a higher pressure (75 psi in this year's rules). When the rocket is released the air expands rapidly, which forces the water out of the neck of the bottle and propels the rocket.
• Angling your fins slightly to one side will cause the rocket to spiral on its way up, creating stability much like throwing a football in a spiral.
• The USDA has defined a large chicken egg to be 60 g (+/- 3 g) averaged by the dozen.
• The force on the egg at launch is typically greater than the force on the egg at landing. Protection for the egg at launch is just as crucial as protection from landing.

Event Resources:
2009 Coaches Institute Presentation (2010 rules)
2007 State Tournament Egg-O-Naut Results (1 liter bottle = lower scores)

Pictures and Video:

Pictures
Video