Conference Session

Enhancing K-12 Mathematics Education with Engineering

Collection

2007 Annual Conference & Exposition

Authors

Donna Diaz, Clemson University; Pam King, Clemson University

Tagged Divisions

K-12 & Pre-College Engineering

) respect for students at all levels of development—are embedded throughout each lesson.In each Math Out of the Box K-5 lesson, students are: 1) given variety and choice in learningtasks; 2) expected to communicate their thinking both verbally and in writing; 3) providedopportunities to model and practice with other students, with the expectation of constructivefeed-back from peers and the teacher; 4) given tasks that are student-centered in nature; and 5)expected to work cooperatively in various group configurations to accomplish tasks. Whatfollows are excerpts from each phase of the learning cycle from a fifth grade lesson, Lesson 6:Creating a Growing Pattern11 with commentary explaining how the lesson components satisfythe Felder/Brent

Conference Session

K-12 Engineering and Pre-College Outreach Poster Session

Collection

2007 Annual Conference & Exposition

Authors

Eugene Rutz, University of Cincinnati

Tagged Divisions

K-12 & Pre-College Engineering

syllabus.This course describes the field of engineering and engineering technology allowing students toexplore technology systems and design processes. Through the course students will use math,science, technology, and writing to solve engineering problems. The course is primarilyproject-based and requires substantial participation by all students. The course also emphasizesteam work, oral and written communication, and the impact technology has on society.The course is a two-semester sequence. The first semester can be taken without taking thesecond semester. Except in rare cases, the second semester can not be taken without completingthe first semester.Table 1 lists the topics to be covered in the course. Table 1

Conference Session

Engineering in High Schools

Collection

2007 Annual Conference & Exposition

Authors

Ramzi Bualuan, University of Notre Dame

Tagged Divisions

K-12 & Pre-College Engineering

highschool students who have just completed their junior year. Students come from all aroundthe country, and in some cases from abroad. IEP’s purpose is to provide participants withan overview of all fields in engineering, while giving the students a taste of college life, alook at career opportunities, and a chance to meet professional engineers as well asengineering faculty. Students work on several projects, attend lectures, write reports,code programs, give presentations, do problem solving and design, go on field trips, andinteract with a very diverse group of peers.In this paper we describe the IEP program, and provide an overview of its selectionprocess and its structure and content. We examine how effective the program has been,and describe

Conference Session

K-12 Engineering Outreach Programs

Collection

2007 Annual Conference & Exposition

Authors

Jorge Rodriguez, Western Michigan University; Tycho Fredericks, Western Michigan University; Steven Butt, Western Michigan University; Luis Rodriguez, University of Wisconsin - Waukesha

Tagged Divisions

K-12 & Pre-College Engineering

about the design process, data collection from potential customers, and tasks toaccomplish their goals that result in the manufacture of their prototype. Recognizing thatstudents need to occasionally take a break from the intensive product design process, theinstructors have also included “design challenges” that allow students to puzzle over achallenging problem for a short period of time (the teams in this challenges are different from theDesign teams). For the residential programs, time is allocated for the students to interact witheach other in peer evening group sessions in order to reflect on the activities of the day, address Page

Conference Session

Enhancing K-12 Mathematics Education with Engineering

Collection

2007 Annual Conference & Exposition

Authors

Charles Feldhaus, Indiana University-Purdue University-Indianapolis; Kenneth Reid; Pete Hylton; Marguerite Hart, Washington Township Schools; Kathy Rieke, Washington Township Schools; Douglas Gorham, IEEE

Tagged Divisions

K-12 & Pre-College Engineering

representatives – can advance the stateof engineering and engineering technology education. Coupled with the information from theaforementioned surveys, the ideas and suggestions from conference attendees and currentresearch in the field of K-12 education, Dougless, Iversen and Kalyandurg have developed a setof six guidelines for improving K-12 engineering education and outreach: 1. Hands-on learning: Make K-12 science curriculum less theory-based and more context- based, emphasizing the social good of engineering and demonstrating how it is relevant to the real world 2. Interdisciplinary approach: Add a technological component to all subjects and lessons, and implement writing guidelines in math and science courses 3. Standards

Conference Session

Engineering Student Involvement in K-12 Programs

Collection

2007 Annual Conference & Exposition

Authors

Kate Caldwell, North Carolina State University; Jessica McCoy, North Carolina State University; Lynn Albers, North Carolina State University; Althea Smith, North Carolina State University; Elizabeth Parry, North Carolina State University

Tagged Divisions

K-12 & Pre-College Engineering

students in careers inengineering [4][9].In the slightly older tradition of K-12 outreach, researchers have explored the positive influenceof service learning on college students. Their results imply that developing curricula for andworking with younger students improves the communication skills of college students [1][3][10][11].Additional studies have suggested that K-12 outreach impacts female students more than theirmale peers [2][10]. Despite the wealth of knowledge addressing the positive aspects of K-12outreach to the involved college students, there is concern that the GK-12 initiative was an“overhasty expansion” of NSF resources. At the program’s inception, many universityadministrators expressed disapproval at the projected costs of the

Conference Session

Gender and Accessibility Issues in K-12 Engineering Education

Collection

2007 Annual Conference & Exposition

Authors

Uchechukwu Abanulo; Ananth Iyer; John Helferty, College of Engineering, Temple University; Joseph Fischgrund, The Pennsylvania School for the Deaf

Tagged Divisions

K-12 & Pre-College Engineering

outside theclassroom helps develop and maintain their interest in the subject. Such activities includescience clubs, excursions to science based institutions such as hospitals, factories and zoos,partnership research (for exceptional students) and science publications or presentations.Furthermore, students could be encouraged to participate in science fairs, along with theirhearing peers, as this could boost their self esteem and persuade them to perform well. Page 12.659.43. Introducing Engineering to Pre-College StudentsThe high school robotics summer program held at Temple University is only one of several effortsbeing made by institutions and

Conference Session

K-12 Engineering and Pre-College Outreach Poster Session

Collection

2007 Annual Conference & Exposition

Authors

Sylvanus Wosu, University of Pittsburgh

Tagged Divisions

K-12 & Pre-College Engineering

Page 12.1198.3engineering career, and are within the top 25% of their class, or may be academically disadvantaged with“excellent” grades in weak K-12 science and math curriculum. CARE serves as a catalyst for higher academicperformance to ensure that students are academically prepared to enter a quality engineering program when they 2graduate from high school.Project CARE targets two groups-Pre-11th (CARE I) and pre-12th (CARE II). The goal of CARE I is to enrichacademic preparation in college algebra, engineering learning tools, and technical writing/reading of high schoolpre-11th grade students from the selected regions. The outcomes of CARE I are to: (1) increase the average score

Conference Session

Engineering in Elementary Schools

Collection

2007 Annual Conference & Exposition

Authors

Kate Hester, Museum of Science, Boston; Christine Cunningham, Museum of Science, Boston

Tagged Divisions

K-12 & Pre-College Engineering

students bring to the learning situation are recognized.Students are encouraged to share their initial ideas about the problems and to examine theseideas in light of new information and activities introduced by their peers, teacher, andexperiences. The pedagogical methods emphasized throughout the course include:Learning Cycle: EiE uses the five “E” learning cycle 23: In engagement, the students are drawn tothe challenge because it is interesting to them. The read-aloud stories that commence each unitare designed to capture students’ imaginations. Students share their ideas about the problemsraised in the story. In exploration, the students begin to explore related science and engineeringprinciples in brief activities. During this phase they

Conference Session

Engineering Professional Development for K-12 Teachers – II

Collection

2007 Annual Conference & Exposition

Authors

Bruce Gehrig, University of North Carolina-Charlotte; Lyndon Abrams, University of North Carolina-Charlotte; Deborah Bosley, University of North Carolina-Charlotte; James Conrad, University of North Carolina-Charlotte; Stephen Kuyath, University of North Carolina-Charlotte; Dawn Denney, Northwest Cabarrus High School; Kelly Teague, J.M. Robinson High School; Bill Welch, J.M. Robinson High School

Tagged Divisions

K-12 & Pre-College Engineering

Center for Writing, Language, and Literacy at the University of North Carolina at Charlotte.James Conrad, University of North Carolina-Charlotte Associate Professor in the Department of Electrical and Computer Engineering at the University of North Carolina at Charlotte.Stephen Kuyath, University of North Carolina-Charlotte Assistant Professor of Electrical Engineering Technology in the Department of Engineering Technology at the University of North Carolina at Charlotte and PI on the NSF sponsored Diversity in Engineering Technology (DIET) project.Dawn Denney, Northwest Cabarrus High School National Board Certified Math Teacher at Northwest Cabarrus High School in Concord, North

Conference Session

K-12 Engineering Outreach Programs

Collection

2007 Annual Conference & Exposition

Authors

Leo McAfee, University of Michigan; Andrew Kim, Michigan State University

Tagged Divisions

K-12 & Pre-College Engineering

writing. Each program hasa cognizant WIMS faculty or staff member who has responsibility for the educationalinstruction and overall management of the program.For in-school and teacher education initiatives, the WIMS Education Program has formedpartnerships with the K-12 school districts of Ann Arbor, Houghton/Hancock, Okemos andEast Lansing area schools, and DAPCEP (Detroit Area Pre-College Engineering Program, anacademic outreach program associated with Detroit schools), and with university-level outreach Page 12.1330.3organizations. Other individual schools that have partnered with WIMS are Grand Rapids HighSchool, Cass Tech High

Conference Session

Innovative K-12 Engineering Programs

Collection

2007 Annual Conference & Exposition

Authors

Summer Dann Johnson; Warren Waggenspack, Louisiana State University; Brenda Nixon, Louisiana State University; Daivon Craft, Louisiana State University; Cheryle Peters, Louisiana State University

Tagged Divisions

K-12 & Pre-College Engineering

College of Basic Sciences both provide a residentialeducational program for high school students. The minority engineering program within theCollege of Engineering has offered an induction program, Recruit into Engineering of HighAbility Minority Students (REHAMS), for approximately 8 years. Each summer approximately35 to 40 high school students reside on the university campus for 3 weeks for an intensiveacademic “boot camp” to prepare students for the challenges of university life. Students arerequired to take a math course, either calculus or college algebra, physics and chemistry.Students are also introduced to resume and portfolio writing, study skills, and the academicentrance policies. Participants tour several engineering labs and