Education Commons^™

An Interactive Exploration Of Gender And Engineering: Unpacking The Experience, Debbie Chachra, Lynn Stein, Alisha Sarang-Sieminski, Caitrin Lynch, Yevgeniya Zastavker

Lynn Andrea Stein

The engineering student experience is understood to differ for male and female students; gendered interactions affect the development of academic and professional role confidence, as well as engineering identity. The purpose of this session is twofold. First, we aim to introduce participants to concepts of gender schemas, privilege, and identity using a range of interactive activities, including brainstorming and structured discussion. Second, we intend to share information about and obtain feedback on a Gender Discussion Exploration Kit, which the participants will be encouraged to review, use, and share at their home institutions.

Integrating Engineering Science And Design: A Definition And Discussion, Benjamin Linder, Woodie Flowers

Benjamin Linder

An important goal of an undergraduate engineering curriculum is to facilitate students' development of an integrated understanding of engineering. Although attempts have been made to integrate engineering science and design curricula, many students are not developing knowledge and skills that synthesize the subjects covered by these two curricula. A few observations of student performance are provided that suggest this lack of integration. A definition of integration is proposed and used to discuss possible reasons why engineering science and design curricula are not well integrated. The definition is based on the observable outcomes and behavior students produce while engaged in learning …

A Semi-Automatic Approach For Project Assignment In A Capstone Course, Mark Chang, Allen Downey

Mark L. Chang

This paper presents a semi-automatic approach to assigning students to project teams for a year-long, industry-sponsored senior capstone course. Successful assignment requires knowl- edge of at least individual project requirements, student skills, student personalities, and student project preferences. This mix of hard skills, soft skills, and interpersonal impres- sions requires human involvement to produce a high-quality assignment. The importance of faculty input often requires that the assignment process be labor- and time-intensive.

Our approach attempts to reduce the time required to perform this assignment by selectively automating parts of the task flow. An automated search uses a randomized greedy algorithm …

Work In Progress - Impact Of Early Design Instruction On Capstone Experiences, Mark Chang, Jessica Townsend

Jessica Townsend

In the Olin College curriculum, students have significant, early, and continuous exposure to user-oriented design principles. As a result, our students have a very user-centered approach to problem solving that has affected our yearlong, industry-sponsored capstone in several ways. We have reflected on five years of capstone engagements in order to learn how our program has changed because of the design emphasis in our curriculum. The significance of our work is to inform the many departments that are already undertaking design-centric curriculum reform on how they may modify their capstone experiences to best take advantage of new student understanding, and …

'Kinetic Sculptures': A Centerpiece Project Integrated With Mathematics And Physics, Yevgeniya Zastavker, Jill Crisman, Mark Jeunnette, Burt Tilley

Yevgeniya V. Zastavker

An integrated set of courses, or Integrated Course Block (ICB), developed for incoming first-year students at the Franklin W. Olin College of Engineering, is presented. Bound by a common theme of `Kinetic Sculptures', the individual courses in this ICB are mathematics (single variable calculus and ordinary differential equations), physics (kinetics and dynamics of linear and rotational motion, thermodynamics and fluids), and an open-ended engineering project. The project part of the ICB allows students to explore the motion through the design of kinetic (moving) sculptures while utilizing the mathematics and physics concepts learned in the accompanying courses. This paper considers the …

Faculty On Integrated Project-Based Learning, Yevgeniya Zastavker, Casey Canfield

Yevgeniya V. Zastavker

This paper examines the experiences, perspectives, and concerns of faculty involved in implementing a first-year integrated project-based engineering curriculum as they attempt to understand and reconcile their own and students’ views, attitudes, and beliefs regarding project-based learning (PjBL). A semi-structured, open-ended interview protocol is employed with seven mathematics and physics faculty participants. Grounded theory is used to identify the following themes: divergence of faculty perceptions regarding the effectiveness of an integrated approach in teaching and learning, the value of projects, and conflicting student expectations.

Rethinking Cs101: Or, How Robots Revolutionize Introductory Computer Programming, Lynn Stein

Lynn Andrea Stein

Introductory computer science education is entrenched in an outdated computational model. Although it corresponds neither to our computing environments nor to our work, we insist on teaching our introductory students computation-as-calculation, a mathematical problem-solving view of the role of the computer program. We can dramatically improve this situation -- and, as a corollary, all of undergraduate computer science -- by focusing on the kind of dynamic, interactive, inherently parallel computation that occurs in spreadsheets and video games, web applications and robots.