Describes an introductory course required of all engineering students at the Ecole Polytechnique de Montreal (Canada). Discusses the design of the course, including its emphasis upon the facets of engineering careers, direct experience, and written and spoken communication. (TW)

Discusses the importance of laboratory experiments in which students were given a few guidelines and small groups had to design the experiments. Describes the old and new orders of laboratory projects and the effects of change. (CW)

Describes an experiential lab program for a two-year college's chemical technology program. Discusses student experiences in six miniature pilot plants that represent the essential instrumentation and chemical processes found in the chemical industry. Recognizes the industries that helped implement the program. (TW)

Describes the learning style inventory and learning cycle developed by David Kolb. Discusses the learning cycle's four stages as concrete experience, reflective observation, abstract conceptualization, and active experimentation. Offers an example from a chemical engineering class in which Kolb's ideas are used in an effort to improve instruction.…

Discusses how, in two three-week sessions, the Terre Haute (Indiana) college offers selected students a hands-on approach to all aspects of engineering from design and lab work to technical writing. Describes a group project requiring students to study and experiment with simple research problems. Lists 20 project ideas. (MVL)

Describes the Rising Senior Program at the Georgia Institute of Technology, which is a cooperative education program designed to provide student interns with an opportunity to apply engineering principles to real problems related to the business interests of the Milliken textile manufacturing company. (TW)

Promotes the use of a practicum technique in which senior engineering level students work on typical company problems in a laboratory setting. Offers suggestions on how to solicit and organize such a university-industry course. (RT)

In this activity, students look at different types of fabric and their respective individual properties. Using a magnifying glass and sandpaper, students test the weave and wear quality of sample fabrics. By comparing the qualities of different fabrics, they are able to better understand why there are so many different types of fabric and…

One of the best ways to learn how something works is to take it apart, look at the pieces, and see how they are connected. In this activity, students disassemble and analyze a click pen and investigate the technology it uses. This activity requires a 30-minute time period for completion. (Author/SOE)

In this activity, students construct bird nests and birdhouses. Students research a bird of their choice in order to design a house that will meet that bird's specific needs. The activity works well in conjunction with a high school level woodshop class where students would partner up. This activity requires an 80-minute time period for…

In this activity, students experiment and observe the similarities and differences between human-made objects and nature in small groups. Students compare the function and structure of hollow bones with drinking straws, bird beaks and tool pliers, and bat wings and airplane wings. A classroom discussion can be held to discuss similarities and…

Towers have been a part of developing society for centuries. In this activity, students investigate towers that serve a variety of purposes. Student groups build three types of towers, engineering them to hold an egg one foot high for 15 seconds. This activity requires a 60-minute time period for completion. (Author/SOE)

In this activity, students learn about composite materials, tension as a force, and how they act on structural components through the design and testing of a strip of plastic chair webbing. This activity requires a 60-minute time period for completion. (Author/NB)

Described is a project where students gain experience in handling large volumes of hazardous materials, process start up and shut down, equipment failures, operational variations, scaling up, equipment cleaning, and run-time scheduling while working in a modern pilot plant. Included are the system design, experimental procedures, and results. (KR)

Rube Goldberg is famous for his very complex machines that accomplish everyday tasks. In this activity, students design and build a Rube Goldberg machine that will accomplish a simple task in no less than 10 steps. This activity requires a 120-360 minute time period for completion. (Author/SOE)