The EGGS PRIZE is a middle-school contest modeled after the $10 million Ansari X PRIZE. The contest is designed to support the middle school learning experience. The curriculum, designed by Mid-Continent Research for Education and Learning (McRel) prepares students for the competition with a series of activities that take the form of real-world design scenarios. Each activity focuses student design teams on the math, science, and technology concepts required to solve a design problem over an eight-week period. Because it is intended to mirror the real world Ansari X PRIZE, The EGGS PRIZE is unique and its content applicable to a variety of students, teachers and settings. And you won't believe the fun!

To be an EGGS PRIZE winner you must launch a water rocket that you build to
an altitude of at least 30 meters (98.4 feet). Instead of a human payload, you are to launch a raw egg to this altitude aboard your water rocket. The egg must survive the flight unbroken. Then within two days, you are to relaunch your egg once again to at least 30 meters (98.4 feet) and have the egg survive the second flight as well.

Documents

Teacher Guide (pdf)
Approved Materials List (pdf)

A Curriculum Module

The EGGS PRIZE Curriculum Module is designed to accompany the Ansari X PRIZE
Competition. To win the Ansari X PRIZE, teams of aerospace engineers and
entrepreneurs must design a reusable space vehicle that will take three
passengers 100 kilometers (62 miles) into space on a suborbital trip, then
return to earth. The vehicle must be able to be relaunched without substantial changes within two weeks. Open to non-governmental agencies from all over the world, the intent of this competition is to make space travel affordable for the general public.

In the EGGS PRIZE Curriculum Module, students experience the same technology design and construction challenges faced by the aerospace engineers vying for the Ansari X PRIZE. The model the students will use includes a water-filled 2-liter soft drink bottle for the rocket and a raw egg for the passenger. Students will design fins, payload protection, nosecone, and recovery systems to add to the basic bottle, and will determine the relative amounts of water and compressed air to propel the water bottle rocket. Design teams will test their rocket and payload protection system with an exciting outdoor launch. In addition to experiencing the processes of design, construction, and testing of a simple rocket system, students will learn many physical science concepts. They will record their experimental results and summarize their conclusions in a journal. Each student will become an expert in one aspect of project design, and will participate in communicating that knowledge to a Design Group. Assessment of standards-aligned learning is embedded in each lesson.

Although instruction and construction are done inside, testing is an outdoor
activity. Safety is a significant concern in these lessons. Safety guidelines
are included where appropriate in each activity, and an entire lesson is devoted to specific safety procedures involved with rocketry. Sponge activities are offered so that teachers can make use of days when outdoor activities had been scheduled but the weather became inclement. Extension activities are available for use by students who need more challenge or teachers who wish to delve more deeply into the material being presented.

The authors and supporters of this curriculum module wish to extend their
thanks to the field test teachers who helped refine the lessons. These teachers found that their students were able to learn science content and practice science processes in a real-world context. Local publicity about Eggs Prize events showed the public that schools were providing basic education to students that would benefit them all their lives.

Exploration

The purpose of the Exploration phase of this learning cycle is to engage
students in the content they will be studying during the Concept Development and Application phases. They will access prior knowledge about rocketry, learn important safety and altitude tracking skills, and experience the excitement of launching a 2-liter plastic bottle filled with water and compressed air. This bottle will be the frame of the rocket they will design as a Design Group team.

Concept Development

During the Concept Development phase of the learning cycle, students learn
new content and practice using it to consolidate their basic understanding. The context for the EGGS PRIZE lessons is designing a
water-and-compressed-air-powered rocket that carries a raw egg to a significant height and returns it safely to the ground both times.

The standards-based content that is to be learned in this context includes
aspects of physical science, technological design, and science processes.

Students will model an actual aerospace project by working in both Design and Expert teams. Members of Expert Groups will conduct experiments to test
hypotheses about various models of rocket fins, nosecones, recovery systems, payload protection systems, and propulsion mixtures. Their individual expertise, developed through interpretation of experimental results and in collaboration with fellow experts, will later be communicated to a Design Group during the Application phase of the learning cycle.

Application

In the Application phase of this learning cycle, students use the conceptual
knowledge and skills acquired in the Concept Development phase to produce a product. In the EGGS PRIZE lessons, that product is a functional rocket and
payload protection system. Having developed specific expertise during the
Concept Development activities, individual experts will combine their knowledge as members of a Design Team, which will design and construct a rocket to accomplish the assigned task. If the classroom teacher chooses to have the student teams participate in the EGGS PRIZE Challenge, the second launch can serve as the competition. Participants in the EGGS PRIZE Challenge win small prizes and national recognition for their scientific discoveries and engineering efforts. Students who complete the EGGS PRIZE lessons are the aerospace engineers of tomorrow.

Sponge Activities

Rocketry is an outdoor activity. Field testing of this set of lessons occurred during winter months, and successful launches were held in cold weather with several inches of snow on the ground. However, it is not safe to launch these rockets in windy weather or during significant precipitation. Therefore, teachers using these lessons must be flexible in scheduling the series of launches involved. To accommodate this need for flexibility, "sponge" lessons are provided that require no precursor knowledge or skills from other lessons. It is the intent of the module designers that teachers can use these lessons during classes that must be rescheduled due to inclement weather. While these activities provide interesting and important information to students, omitting them does not impede the progress of the curriculum.

Rocket Visionaries allows students to learn about famous inventors and others involved in the development of rocketry as a science. They will discover the importance to scientists and engineers of keeping a journal. Careers in the Space Science Industry allows students to find out about potential job opportunities that may be of interest after participating in the EGGS PRIZE lessons. Physical Science Content pages may be assigned as whole-class lessons, or may be assigned to Expert Groups for background reading.

Extension Activities

These EGGS PRIZE
activities are for advanced or highly interested students. Generally, they
require more mathematics background than the core set of activities. Rocketry is an outdoor activity. Field testing of this set of lessons occurred during winter months, and successful launches were held in cold weather with several inches of snow on the ground. However, it is not safe to launch these rockets in windy weather or during significant precipitation. Therefore, teachers using these lessons must be flexible in scheduling the series of launches involved. To accommodate this need for flexibility, "sponge" lessons are provided that require no precursor knowledge or skills from other lessons. It is the intent ofbthe module designers that teachers can use these lessons during classes that
must be rescheduled due to inclement weather. While these activities provide
interesting and important information to students, omitting them does not impede
the progress of the curriculum.

Risk Assessment introduces a real-world process used by project
engineers to create mathematical models of the risks involved in the project.
These models integrate information about the types of risks potentially
involved, the likelihood of the risky event occurring, and the magnitude of the
effect of the risk if it occurred. This information allows engineers to modify
project plans to mitigate or lessen the potential damage that could be caused by
various risks to the project. Rocketry is an outdoor activity. Field testing of
this set of lessons occurred during winter months, and successful launches were
held in cold weather with several inches of snow on the ground. However, it is
not safe to launch these rockets in windy weather or during significant
precipitation. Therefore, teachers using these lessons must be flexible in
scheduling the series of launches involved. To accommodate this need for
flexibility, "sponge" lessons are provided that require no precursor knowledge
or skills from other lessons. It is the intent of the module designers that
teachers can use these lessons during classes that must be rescheduled due to
inclement weather. While these activities provide interesting and important
information to students, omitting them does not impede the progress of the
curriculum.

You Get What You Pay For models for students the project budgeting
process. Engineers submit cost estimates along with blueprints. For most
projects, it is important to control costs while still maintaining the
appropriate standards of quality. On many projects, a bonus is paid for coming
in "under budget," and significant financial losses may be incurred by not
paying attention to project spending. Rocketry is an outdoor activity. Field
testing of this set of lessons occurred during winter months, and successful
launches were held in cold weather with several inches of snow on the ground.
However, it is not safe to launch these rockets in windy weather or during
significant precipitation. Therefore, teachers using these lessons must be
flexible in scheduling the series of launches involved. To accommodate this need
for flexibility, "sponge" lessons are provided that require no precursor knowledge or skills from other lessons. It is the intent of the module designers that teachers can use these lessons during classes that must be rescheduled due to inclement weather. While these activities provide interesting and important
information to students, omitting them does not impede the progress of the
curriculum.

Advanced Altitude Tracking uses the trigonometry of tangents to
calculate the altitude of a rocket if the baseline between the observer and the launch pad is known. Rocketry is an outdoor activity. Field testing of this set of lessons occurred during winter months, and successful launches were held in cold weather with several inches of snow on the ground. However, it is not safe to launch these rockets in windy weather or during significant precipitation. Therefore, teachers using these lessons must be flexible in scheduling the series of launches involved. To accommodate this need for flexibility, "sponge" lessons are provided that require no precursor knowledge or skills from other lessons. It is the intent of the module designers that teachers can use these lessons during classes that must be rescheduled due to inclement weather. While these activities provide interesting and important information to students,
omitting them does not impede the progress of the curriculum.