Engineering - Rockets and Renewable Cars

Engineering - Rockets and Renewable Cars

Camp Description

This summer camp will introduce the participants to the engineering process via applied projects. The participants will explore basic engineering concepts and they will develop, design, and construct air-powered airplanes, and model rockets throughout the week. Participants will be trained in the use of software including RocSim to analyze the performance of rocket-powered vehicles. All of the projects will be tested, sometimes under competition settings, culminating with a team project.

Camp Overview

Structural Design
Participants exercise creativity and innovation by designing and constructing a structure with a single sheet of paper.
The second challenge is a group project where campers design and build a structure using the K'Nex system. The success of this task will rely on teamwork, communication, vision, and construction skills.
Campers get a brief overview of the basic engineering principles (Statics) that govern the design of buildings. Balance of forces and moments will be discussed. Videos and images of successful, as well as catastrophic structural designs will be presented.
Vehicle Dynamics
A successful race-car design incorporates a geometry that minimizes air resistance.  Participants will have to design and build an air-powered racer from a standard wooden block. A sound design an proper measurements is the first step. The racers will take shape in the College's machine shop where campers will be properly instructed and supervised in the use of professional-grade tools to build their racers. The race cars will then face each other in successive matches at a regulation track.  Of course, any aspiring champion racer will have appropriate colors and markings.
Campers will learn the essentials of road vehicle design, particularly the field of Dynamics which, explains the forces acting on a vehicle in motion. Newton's Laws of Motion as well as the concept of aerodynamic drag will be discussed.  The essentials of engineering design will be presented and explained. The participants will then use these principles to produce an effective design given specific constraints (e.g. axes locations, compressed-air channel, etc.)
Aerodynamics and Rockets
We live in an era where GPS technology is available on every smart phone. However, the constellations of satellites that control GPS systems had to be placed in orbit by powerful rockets. Hobby rockets are an excellent tool to learn about aerodynamic forces and stability. The most demanding segment of the camp will require for campers to learn to use the RocSim software to design and analyze rockets. The first task will be to use the computer to model a commercial hobby rocket kit, which each participant will then have to construct and decorate. The next task requires teams of future engineers to design and model a rocket from scratch. Once the instructor is satisfied that the computer simulations validate the design, each team will be allowed to build the rocket. The third stage involves the design, simulation, and construction of a multi-stage rocket. Again, the design will have to be verified by the instructor before the team is allowed to build the rocket. All the rockets will be launched on the last day of the camp. Only safe rockets will be allowed in the launch pads.
Discussion on aerodynamic principles will be discussed. Emphasis will be placed on stability and videos showing catastrophic results of rockets that lose stability will be shown. The RocSim software is a standard tool for hobby rocketeers who want more than commercial hobby kits. Students will be trained in the use of this software to validate the aerodynamic stability of their designs. Campers will have to demonstrate via computer simulations that their rockets will be safe to launch. The construction of these rockets will require precise measurements and careful attention to the construction of their rockets. A safe rocket is not only aerodynamically stable, but also structurally sound.

Activities described are general topics and are subject to change at the instructor’s discretion.

Dates:     July 10 – 14, 2017
Time:       8:30 am – 4:00 pm
Fee:         Residential - $775
                Commuter - $475

Camp Registration

For immediate seat reservation, click to REGISTER ONLINE in Engineering - Rockets and Renewable Cars.

Or, to register by mail or fax use this PAPER REGISTRATION form.