scholarly journals IMPORTANCE OF FIRST-YEAR ENGINEERING DESIGN PROJECTS TO SELF-EFFICACY: DO FIRST-YEAR STUDENTS FEEL LIKE ENGINEERS?

2012 ◽  
Author(s):  
Jon Michael ◽  
J Booth ◽  
Thomas E Doyle
Keyword(s):  
Self Efficacy ◽  
Engineering Students ◽  
First Year ◽  
Primary Concern ◽  
First Year Students ◽  
Engineering Programs ◽  
Design Project ◽  
Mastery Experiences ◽  
Design Projects ◽  
Vicarious Experiences

Self-efficacy, a belief that one can achieve a certain level of attainment, is important to student retention in engineering and technology fields. Developing ways to increase self-efficacy should be a primary concern for engineering programs. Several key tasks will be investigated including (a) the importance of design projects to self-efficacy in first-year engineering, and (b) making first-year engineering students feel like engineers. A team-based “Cornerstone” design project was undertaken by first-year engineering students as part of a Design and Graphics course. Two groups of first- year engineering students were surveyed, (1) students who had completed the course and design project in first term, and (2) students who were enrolled in the second term offering of the same course, before completing the design project. The survey focused on Bandura’s four identified sources of self-efficacy: (a) Mastery experiences, (b) Vicarious experiences, (c) Social persuasions, and (d) Physiological states, as well as a fifth often added characteristic (e) Drive and motivation. Additionally, students were asked to quantify their agreement or disagreement to the statement “I feel like an Engineer.” This paper will present the results between these two groups and will be of interest to faculty involved in freshmen design.

Assessing Engineering Design: A Comparison of the Effect of Exams and Design Practica on First-Year Students’ Design Self-Efficacy

2020 ◽  
Vol 143 (5) ◽  
Author(s):  
Hannah Nolte ◽  
Catherine Berdanier ◽  
Jessica Menold ◽  
Christopher McComb
Keyword(s):  
Self Efficacy ◽  
Engineering Students ◽  
Underrepresented Students ◽  
First Year ◽  
First Year Students ◽  
Engineering Programs ◽  
Efficacy Analysis ◽  
Design Component ◽  
Assessment Survey ◽  
Team Design

Abstract In response to calls for engineering programs to better prepare students for future careers, many institutions offer courses with a design component to first-year engineering students. This work proposes that traditional exam-based assessments of design concepts are inadequate, and alternative forms of assessment are needed to assess student learning in design courses. This paper investigates the self-efficacy differences between a traditional exam and a two-part practicum as a mid-semester assessment for introductory engineering students enrolled in a first-year design course. Increased self-efficacy has been linked to various positive student outcomes and increased retention of underrepresented students. The practicum consisted of an in-class team design task and an out-of-class individual reflection, while the exam was a traditional, individual written exam. All students completed a pre-assessment survey and a post-assessment survey, both of which included measures of design self-efficacy. Analysis showed that the practicum increased the design self-efficacy of students more effectively than the exam. Students who identified as women had greater gains in design self-efficacy during the practicum as compared with men. Identifying as a minority subgroup student was also trending toward being a significant predictor of change in design self-efficacy for the practicum. Findings suggest that a mid-semester practicum is a successful assessment of design competencies that contributes to increased first-year engineering student self-efficacy.

scholarly journals Design Practica as Authentic Assessments in First-year Engineering Design Courses

2018 ◽  
Author(s):  
Christopher McComb ◽  
Catherine Berdanier ◽  
Jessica Menold
Keyword(s):  
Engineering Design ◽  
Self Efficacy ◽  
Engineering Students ◽  
Skill Level ◽  
First Year ◽  
First Year Students ◽  
Entry Level ◽  
Learning Attitudes ◽  
Perceived Change ◽  
Common Learning

This paper describes the design and evaluation of a novel assessment for first-year engineering design courses that is rooted in an authentic design challenge. This approach modifies the traditional written-exam approach typically found in engineering courses, which is inherently inauthentic and cannot easily capture the exploratory nature of engineering design. Our assessment improves alignment with common learning objectives found in first-year engineering design courses and additionally prepares students for the type of case study interviews that are increasingly common for entry-level engineering jobs. To evaluate our assessment, 50 first-year students completed the engineering design self-efficacy instrument once before beginning the assessment and a second time approximately 48 hours later upon completion of a reflection assignment. In addition, students retrospectively reported their perceived change in self-efficacy during the assessment. Analysis shows that students perceived a large retrospective increase in skill level, despite only a small increase in directly measured self-efficacy. These results are analyzed in light of the Dunning-Kruger effect and we posit that the assessment helps to align students’ self-efficacy with their actual skill level. Increased alignment of self-efficacy with skill level may minimize student frustration when encountering challenging tasks in the future, potentially increasing retention of engineering students as well as facilitating the development of lifelong learning attitudes.

scholarly journals TEACHING ENGINEERING COMMUNICATION TO FIRST YEAR ENGINEERING STUDENTS

2011 ◽  
Author(s):  
Carolyn Labun
Keyword(s):  
British Columbia ◽  
Engineering Students ◽  
First Year ◽  
Written Communication ◽  
First Year Students ◽  
Design Project ◽  
Engineering Communication ◽  
University Of British Columbia ◽  
The University ◽  
Written Assignments

At the University of British Columbia Okanagan School of Engineering (SOE), first year engineering students take a 3-credit course in Engineering Communication. Designed to replace the traditional 3-credits of English taken by other first year students, APSC 176 introduces students to the fundamentals of engineering communication, with a strong emphasis on written communication. The paper is describes the types of assignments given to first year students, the techniques used to encourage meaningful revision of written assignments, and the methods used to evaluate written assignments. Particular attention will be paid to a two-week first term design project (such as the assignment, supplemental materials including exercises, and marking guidelines). It should be noted that the design is entirely conceptual - students are not required to develop a prototype, but rather to work with a team to develop (and subsequently, explain and market) a concept in response to an RFP.

scholarly journals SHORT DESIGN PROJECTS FOR AN INTRODUCTORY THERMOFLUIDS ENGINEERING COURSE

2015 ◽  
Author(s):  
Michele Hastie ◽  
Jan Haelssig
Keyword(s):  
Engineering Students ◽  
Learning Experience ◽  
Theoretical Work ◽  
Lessons Learned ◽  
Team Work ◽  
Engineering Programs ◽  
Design Project ◽  
Introductory Course ◽  
Design Projects ◽  
Second Year

The Faculty of Engineering at Dalhousie University offers a common introductory course that covers the basic principles of thermodynamics and fluid mechanics in a unified manner. This introductory course is a mandatory part of the curriculum for all engineering programs offered at Dalhousie. In this course, students are required to perform six laboratory experiments, and since 2012 students have also completed short, four-week design projects.The short design project helps students to acquire more of the graduate attributes defined by the Canadian Engineering Accreditation Board (CEAB), including design, communication, and team work skills. They also provide students with a well-deserved break from purely theoretical work in lectures and tutorials, and a chance to develop some hands-on abilities.This paper describes the lessons learned from the last three design projects, which were focused on modifications to a Ranque-Hilsch vortex tube, design of a pop-pop boat, and design of a double pipe heat exchanger. The primary challenges have been the limited engineering design experience possessed by students in their third semester of studies, the heavy workload that second-year engineering students already have, and the relatively large class size. Even though there are clear challenges related to integrating a design project into a large second-year class, the results seem to indicate that these design projects provide a positive learning experience for the students.

scholarly journals TEACHING FIRST-YEAR STUDENTS TO COMMUNICATE PROBLEM ANALYSIS AND INVESTIGATION WITH AN ENGINEERING-SPECIFIC WRITING MODEL

2020 ◽  
Author(s):  
George Lamont ◽  
Stephan Lambert
Keyword(s):  
Engineering Students ◽  
First Year ◽  
Problem Analysis ◽  
First Year Students ◽  
Engineering Programs ◽  
Students Success

The ability to communicate problem analysis and investigation is crucial to engineering students’ success. The Swales CARS model has generated considerable pedagogical interest because it describes how many engineers communicate in diverse documents. However, research has not yet reached any consensus about how effectively this model improves students’ ability to communicate problem analysis and investigation. In previous work, we reported that teaching the Swales CARS model and deploying an engineering case increased the students’ confidence to critique their own projects, but that study only focused on student impressions of their ability. To address this gap and expand on previous work, we evaluated students in a first-year engineering-communications course to determine whether teaching the Swales CARS model improved their ability to communicate problem analysis and investigation. Our results show our expanded approach generates considerable gains in these skills, which has far-reaching implications for the design of communications instruction in engineering programs. 

Comparison of Exams and Design Practica for Assessment in First Year Engineering Design Courses

2020 ◽  
Author(s):  
Hannah Nolte ◽  
Catherine Berdanier ◽  
Jessica Menold ◽  
Christopher McComb
Keyword(s):  
Self Efficacy ◽  
Engineering Students ◽  
Underrepresented Students ◽  
First Year ◽  
Engineering Programs ◽  
Design Concepts ◽  
Efficacy Analysis ◽  
Design Component ◽  
Assessment Survey ◽  
Team Design

Abstract In response to calls for engineering programs to better prepare students for future careers, many institutions offer courses with a design component to first-year engineering students. This work proposes that traditional exam-based assessments of design concepts are inadequate, and alternative forms of assessment are needed to assess student learning in design courses. This paper investigates the self-efficacy differences between a traditional exam and a two-part practicum as a mid-semester assessment for introductory engineering students enrolled in a first-year design course. Increased self-efficacy has been linked to various positive student outcomes and increased retention of underrepresented students. The practicum consisted of an in-class team design task and an out-of-class individual reflection, while the exam was a traditional, individual written exam. All students completed a pre-assessment survey and a post-assessment survey, both of which included measures of design self-efficacy. Analysis showed that the practicum increased the design self-efficacy of students more effectively than the exam. Students who identified as women had greater gains in design self-efficacy during the practicum as compared to men. Identifying as a minority subgroup student was also trending towards being a significant predictor of change in self-efficacy for the practicum. Findings suggest that a mid-semester practicum is a successful assessment of design competencies that contributes to increased first-year engineering student self-efficacy.

REVERSE ENGINEERING: TENSION RATCHET DISSECTION PROJECT

2011 ◽  
Author(s):  
Jeremiah Vanderlaan ◽  
Josh Richert ◽  
James Morrison ◽  
Thomas Doyle
Keyword(s):  
Reverse Engineering ◽  
Engineering Students ◽  
Measurement Techniques ◽  
First Year ◽  
Stepping Stones ◽  
First Year Students ◽  
Final Project ◽  
Undergraduate Study ◽  
Solid Edge ◽  
Part Modeling

We are a group of engineering students, in our first year of undergraduate study. We have been selected from one thousand first year students and have competed and won the PACE competition. All engineers share a common general first year, but we have been accepted into Civil and Mechanical engineering. This project was assigned as the final project in the Design and Graphics course. The project we are tasked with, called the Cornerstone Design Project, is to first dissect a product, discover how it works, dimension each part and create a fully assembled model using CAD software (Solid Edge V20 in our case). As part of discovering how it works we must benchmark it so the device can be compared with competing products. The goal of the project is to develop a full understanding of part modeling and assembly in Solid Edge, learn proper measurement techniques, and learn the process of reverse engineering and product dissection. All of these tasks were stepping stones to help us fully understand how the device, and all its components, work.

First-Year Engineering Computing Courses in Canadian Engineering Programs

1969 ◽  
Author(s):  
Sean Maw ◽  
Janice Miller Young ◽  
Alexis Morris
Keyword(s):  
Problem Solving ◽  
Engineering Students ◽  
Expected Value ◽  
Knowledge Development ◽  
First Year ◽  
Recent Past ◽  
Engineering Programs ◽  
Digital Computation ◽  
Pedagogical Philosophies ◽  
Introductory Computing

Most Canadian engineering students take a computing course in their first year that introduces them to digital computation. The Canadian Engineering Accreditation Board does not specify the language(s) that can or should be used for instruction. As a result, a variety of languages are used across Canada. This study examines which languages are used in degree-granting institutions, currently and in the recent past. It also examines why institutions have chosen the languages that they currently use. In addition to the language used in instruction, the types and hours of instruction are also analyzed. Methods of instruction and evaluation are compared, as well as the pedagogical philosophies of the different programs with respect to introductory computing. Finally, a comparison of the expected value of this course to graduates is also presented. We found a more diverse landscape for introductory computing courses than anticipated, in most respects. The guiding ethos at most institutions is skill and knowledge development, especially around problem solving in an engineering context. The methods to achieve this are quite varied, and so are the languages employed in such courses. Most programs currently use C/C++, Matlab, VB and/or Python.

scholarly journals What Can Students’ Bibliographies Tell Us?- Evidence Based Information Skills Teaching for Engineering Students

2006 ◽  
Vol 1 (2) ◽  
pp. 12 ◽  
Author(s):  
Fei Yu ◽  
Jan Sullivan ◽  
Leith Woodall
Keyword(s):  
Web Sites ◽  
Engineering Students ◽  
Chemical Engineering ◽  
First Year ◽  
Journal Articles ◽  
First Year Students ◽  
Internet Resources ◽  
Information Skills ◽  
Upper Level ◽  
Department Faculty

Objective - This project sought to identify students’ strengths and weaknesses in locating, retrieving, and citing information in order to deliver information skills workshops more effectively. Methods - Bibliographies submitted from first-year engineering and second- and fourth-year chemical engineering students’ project reports were analysed for the number of items cited, the variety of items cited, and the correct use of citation style. The topics of the project reports were also reviewed to see the relationships between the topics and the items cited. Results - The results show that upper level students cited more items in total than did lower level students in their bibliographies. Second- and fourth-year engineering students cited more books and journal articles than first-year students cited. Web sites were used extensively by all three groups of students, and for some first-year students these were the most frequently used sources. Students from all three groups had difficulties with citation style. Conclusion - There was a clear difference in citation frequency between upper and lower level engineering students. Different strategies of information skills instruction are needed for different levels of students. Librarians and department faculty members need to include good quality Internet resources in their teaching and to change the emphasis from finding information to finding, interpreting, and citing accurately.

Education for sustainable development in Spanish higher education: an assessment of sustainability competencies in engineering and education degrees

2021 ◽  
Vol ahead-of-print (ahead-of-print) ◽  
Author(s):  
Fermín Sánchez-Carracedo ◽  
Daniel Romero-Portillo ◽  
Bàrbara Sureda Carbonell ◽  
Francisco Manuel Moreno-Pino
Keyword(s):  
Sustainable Development ◽  
Engineering Students ◽  
Education For Sustainable Development ◽  
First Year ◽  
Education Students ◽  
First Year Students ◽  
Content Type ◽  
Spanish Higher Education ◽  
Percentage Measure ◽  
University Degree

Purpose This paper aims to present a methodology for analysing the extent to which students of a university degree perceive that they have received a good education for sustainable development (ESD). The methodology enables us to quantify this perception, which, in turn, allows us to determine: to what extent the objectives related to ESD are achieved in the degree, and to compare the learning in ESD perceived by students of different degrees. The methodology is applied to nine engineering degrees and nine education degrees in the Spanish university system. Design/methodology/approach ESD is analysed from the students’ learning perception. This perception is measured by comparing the responses of first- and fourth-year students to a questionnaire about their sustainability competencies. Two indicators have been designed to analyse the results. The first indicator, learning increase, measures the declared learning difference between fourth- and first-year students. The second indicator, learning percentage, measure the amount of learning as reported by fourth-year students compared to how much they could have learned. Findings The results show that the average learning percentage perceived by students is higher in engineering degrees (33%) than in education degrees (27%), despite the fact that the average learning increase declared by students at the end of their studies in both areas of knowledge is similar (66%). Engineering students report having achieved higher learning than education students in all sustainability competencies, with the exception of ethics. Originality/value This paper analyses ESD from the student’s perspective. Furthermore, to the knowledge of the authors, this is the first study that compares the perception of ESD between engineering and education students. This comparison allows us to determine the different approaches that university Professors take to ESD according to the discipline they teach.

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