Up to 34 students per session
$145 Per Session
Two hours minimum booking
Travel fees may apply*
2nd — 5th
Frequently Asked Questions
View Standards Addressed
After building their own cars, students alter their designs to complete a series of impressive challenges.
OMSI's Imagineering programs are hands-on, inquiry-based workshops in which students use the engineering design process to solve exciting challenges through design and testing. To help teachers with the Oregon State Science Standards in engineering and design, OMSI can provide an engineering handbook for an additional charge of $25. This easy-to-use handbook features seven activities for your class and is designed for a teacher on a budget.
Experience an adventure in science without leaving the classroom. These programs include a general introduction to a science topic and hands-on, interactive activities.
If you are located less than 40 miles from OMSI, there are no travel fees.
If you are located more than 40 miles from OMSI, travel fees are charged as follows:
• By scheduling a program when we’re in your area (per map), each school pays $105 per instructor per day, in addition to the program cost. No mileage is charged.
• If we make a special trip to your school (when we’re not scheduled to be in your area per map), each school is charged 55¢ per round-trip mile (subject to federal rate changes) and $105 per instructor per day, in addition to the program cost.
• Visits to areas beyond the boundaries of the map are available by request and travel fees are negotiated on a case-by-case basis.
A minimum of 2 weeks' advance notice is required for all registration requests. If you have questions, please contact us at 503.797.4661 or email@example.com.
- 3.2P.1 —
- Describe how forces cause changes in an object’s position, motion, and speed.
- 5.2P.1 —
- Describe how friction, gravity, and magnetic forces affect objects on or near Earth.
- 7.2P.1 —
- Identify and describe types of motion and forces and relate forces qualitatively to the laws of motion and gravitation.
- 3.3S.1 —
- Plan a simple investigation based on a testable question, match measuring tools to their uses, and collect and record data from a scientific investigation.
- 3.3S.2 —
- Use the data collected from a scientific investigation to explain the results and draw conclusions.
- 3.3S.3 —
- Explain why when a scientific investigation is repeated, similar results are expected.
- 3.4D.1 —
- Identify a problem that can be addressed through engineering design, propose a potential solution, and design a prototype.
- 4.4D.1 —
- Identify a problem that can be addressed through engineering design using science principles.
- 4.4D.2 —
- Design, construct, and test a prototype of a possible solution to a problem using appropriate tools, materials, and resources.
- 4.4D.3 —
- Explain how the solution to one problem may create other problems.
- 5.4D.2 —
- Design and build a prototype of a proposed engineering solution and identify factors such as cost, safety, appearance, environmental impact, and what will happen if the solution fails.