Rotor Egg Drop

''Helicopter Egg Drop redirects here. For other Egg Drop events, see Bungee Drop and Naked Egg Drop.''

Rotor Egg Drop is a Division B event from the 2012-2013 in which teams must build and test an auto-rotation device to safely land an egg on the ground from a variable height. Previously called Helicopter Egg Drop, the event's name was changed to avoid confusion with Helicopters. Helicopter Egg Drop was run as a Division B trial event for 2012 in New York and at the National Tournament.

Overview
In this event, you must construct a helicopter rotor device prior to competition. The event proctor will provide you with a raw egg, a sandwich bag, tape, and a cup. The team must seal the egg in a sandwich bag and the put it inside a cup. The cup must mount of suspend from the bottom of the device. You may use masking take to keep the egg in the cup, but not for cushioning. The entire device including the cup must fit in a 51 cm x 51 cm x 51 cm cube. You may request a new egg if you break yours, but you are penalized two seconds.You have one drop during the competition, and that one drop determines your score for the entire event, so be extremely careful! The device must be impounded before the competition. The proctor will weigh your device and make sure it passes all the event parameters.

The score is determined in several tiers. If your egg does not crack at all and met all the construction parameters, you are in Tier 1, which means that you have automatically scored above anyone whose egg cracked. If the egg didn't survive, but you have met the construction parameter, you are in Tier 2. If your egg survived but you did not meet the construction parameters, you are ranked in Tier 3. Lastly, if your egg cracked and you did not meet the construction parameters, you are ranked in Tier 4. Within your tier, you are scored based on how long your device was in the air before making contact with the ground. The longer the flight time, the higher your device will be ranked. Tie-breakers are determined by the weight of the device without the cup and the egg, with lightest device placing above.

Building the Helicopter Rotor Device
When building the rotor device, you must keep in mind aerodynamic principles, since energy-producing mechanisms are not allowed at all. This includes rubber bands. This means that your design is going to be based solely off of classical physics (such as Newton's Laws and Bernoulli's principle) and how much lift and air resistance you can make with your device. The rotation of the rotors as it falls through the air should cause a difference of air pressure above and under the blades, if the use of "auto-rotation" of the rotor is used. These principles are the ones that are used for the construction of windmills, airplanes, and propellers. Remember that a rotor at a flat angle will create no spin. The rotors have to be at an angle to produce maximum lift and a spinning force.

As parachute-like devices are specifically prohibited in the rules, you will be disqualified if your device includes anything like a parachute. While this may close some methods of longest suspension time, this also forces you to create rotors. Many designs include three or four rotors with a membrane that covers these rotors. Other possible designs include the "flower petal" design or the "corkscrew" design. The pitch should be fairly low to gain maximum time and air resistance. Most importantly, if in doubt, don't use a design that you think might be disqualified for being a parachute. This MAY include loose rotor coverings. (Depending on judge)

Tools
For this event, some basic tools are needed. The first, and most important is the X-Acto or craft knife. This is used to cut the wood and is the heart of rotor egg drop building. Some other tools are needed as well, such as sandpaper, scissors, pins, a foam board, a ruler, tape, and other things found around the house.

Materials
This event is one in which you must find the balance between super-light, and strong. Your device should be as light as possible, so that it will descend more slowly through the air; however, it also must be strong enough to hold the egg and keep the device stable in the air. Keep in mind that the variation in egg weight renders small weight changes in the device futile. If the device is too light it may sway like a piece of paper as it is falling through the air, causing a blade or another part of the device to hit the ground first, rather than the cup that contains the egg. A very common material for the frame of the device is balsa wood. Other commonly used materials are basswood and carbon fiber rods. Most devices use a frame made out of one of the materials listed above and a covering that coats it. This maximizes efficiency and produces the least amount of weight possible. The membrane is usually condenser paper, Japanese tissue, or Mylar, but shopping bags can be used as a cheaper alternative.

Gluing
There are many types of glue out there, but the best for this project are superglue, CA glue, and liquid cement (Ambriod). Superglue and CA glue are extremely similar, and dry very quickly. Be very careful, as they set in about 5 seconds and it is easy to get your fingers glued to the device. Liquid cement is a bit easier to work with, but it requires more time to dry and different methods of applying it to the pieces. Be careful while using glue, and do not use excessive amounts of it. The glue adds up and can easily add an extra few grams to your device. A good way to secure a bond after it is done drying is to put a drop of thin CA glue on the joint. It soaks into the wood to create a better bond. And whatever you do, DO NOT use gorilla glue. It is extremely heavy and expands several times its size while drying and can warp delicate pieces. The best way to glue the membrane to the frame of the rotor is to use spray glue. It applies an even covering of glue to the frame, creating it a lightweight and strong bond.

Testing Your Device Before the Competition
Testing is vital to the competition, since you should know whether or not your device works. This way you can modify it to work even better and know which designs are more efficient.

Grade A large eggs are defined as at least 56 grams or over. To test, you could drop eggs to see if your device works, but it could get very messy if your device isn't successful. Another idea is to create a weight that won't explode, so that you can observe the way the device twirls and floats through the air. Anything will do--you can literally take a piece of cloth, bunch it up, and tie rubber bands around it--if it is the same weight as an average egg. It is a good idea to make a fake egg out of some household materials before dropping an actual egg.

However, you also have to test on a real egg, so you can test if the egg will break or not. Make sure that the plastic bag is sealed tight when you move to egg dropping. One major mistake that many people do is to leave some air trapped inside the bag. This is against the competition parameters. Be sure that there is as little air as possible inside the bag before dropping it.

Some good testing locations include malls, stairwells, balconies (make sure there is no grass underneath, as it cushions the egg), and basically any high place. Make sure there is room to the sides, as some models tend to go off to the sides and hit the walls and other objects.

Competition
The event supervisor will provide you with scissors, a sandwich bag, a cup, masking tape, and an egg. The egg must go in the sandwich bag, which must go in the cup. The cup should be attached to your device in such a way that the cup will be the first thing to contact the floor. Remember that you should not have any air in the bag or any other materials such as wadded up sandwich bag or any masking tape, as it may cushion your egg and result in your device being tiered.

Remember that in competition, you only have one try, so make it count!