An investigation of students' conceptual understanding in related sophomore to graduate-level engineering and mechanics courses

Montfort, Devlin Bradford,

January 2007

Thesis (M.S. in civil engineering)--Washington State University, December 2007. / Includes bibliographical references (p. 37-38).

Case studies of technical report writing development among student engineers

Sloat, Elizabeth A.

January 1994

This research examines factors that either promote or hinder workplace writing among Chemical Engineering students during their study in two Technical Report writing courses. It examines the extent to which a workplace writing environment, which instructors believe they create, is actually enacted in the classroom, and also explores the differences in intended and actual learning outcomes between instructors and students. / A number of qualitative research methods were used to gather data for sixteen student case studies. These methods include taped and transcribed interviews with students and the two course instructors, an analysis of all student reports and course documentation, classroom observations, taped student-professor conferences, and taped responses from both instructors as they evaluated each student report. / Research findings suggest that students learned the required technical report format since everyone passed the course. Findings further suggest, however, that explicit efforts to enact a professional chemical engineering writing environment within this university context were generally unsuccessful. Writing tasks did not reflect an authentic workplace writing situation where writers believed their composing purpose was to communicate with others within their community of Chemical Engineering. Even though attempts were made by instructors to create such an environment, the writing task actually became a school-based exercise where students learned to provide the right textual format in order to meet with both teacher expectations and writing success. / The study concludes that educators must be aware of their real teaching and learning agendas and that these objectives must be conveyed adequately to students. Findings also reinforce the difficulty of enacting authentic workplace writing contexts within academic environments, and ways to achieve this goal are discussed. This research also contributes to evolving theoretical discussions about writing and the teaching of writing.

Technical writing

Engineering students

A cross-sectional study of engineering majors' self-efficacy

Concannon, James Peter,

January 2008

Thesis (Ph. D.)--University of Missouri-Columbia, 2008. / The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from title screen of research.pdf file (viewed on August 3, 2009) Vita. Includes bibliographical references.

Engineering students. Self-efficacy.

Engineering mathematics : an investigation of students' mathematical thinking from a cognitive engineering perspective /

Cardella, Monica E.

January 2006

Thesis (Ph. D.)--University of Washington, 2006. / Vita. Includes bibliographical references (leaves 212-228).

Engineering design Engineering students

The effect of a guided enquiry based learning approach on mechanical engineering students' understanding of thermodynamics

Louw, Christoffel

January 2012

Personal experiences of almost 17 years as an academic in engineering education in South Africa indicate that with the current teaching methods which are in use, course outcomes as required by the South African Qualification Authority (SAQA) are not achieved in learning Thermodynamics 2 (MTHE 2). The purpose of this research was to investigate alternative methods of teaching and learning MTHE 2 which would assist to improve the students’ academic performance. The population for this research was students registered for National Diploma Mechanical Engineering and the accessible population was 40 students registered for MTHE 2 from Walter Sisulu University, Chiselhurst campus. Out of these 40 students, 20 voluntarily agreed to be the sample. The theoretical framework for this study was social constructivism. Social constructivism states that learning is an active process and the process of knowledge construction occurs in a socio-cultural context where the student and environment actively interact. The student involves himself/herself and does neither remain nor be allowed to remain just as a passive observer. This was an action research where students were exposed to Guided Enquiry Based Learning (GEBL) in groups. From a social constructivists approach to learning, GEBL was used to engage students in social groups during the teaching-learning process with specific focus on selected academic discipline. All ethical considerations applicable to a study of the present nature were adhered to and in addition, signed informed consent forms were obtained from participants prior to the study. Students were given an introduction to the concepts and principles as per the pre-set syllabus for MTHE 2 and this was followed by problem solving sessions in which they were divided into four groups of five students each. The students were given a guided enquiry- and work-based example with an additional list of questions on each module of the syllabus. They had to select the most relevant questions from the list to analyse and develop a solution for each problem. The lecturers’ role was that of a facilitator who assisted each group with problems which the group encountered. This approach engaged students more actively in the learning process and placed more responsibility on them for their own progress in learning. This process also created an atmosphere for interaction with peers and assisted them to develop interpersonal and group communication skills. Key performance indicators were developed to measure the extent to which these outcomes were achieved. The researcher made use of an instrument structured in terms of Likert-type scale in order to objectively assess the extent of achievement. Data collected from the pilot study done in 2009 indicated that GEBL improved the students’ understanding of course content and problem analysis. Quantitative data were collected by means of standard assessment i.e. semester tests, an oral test, final examination and a KPI instrument. The KPIs were formulated to measure the extent to which the outcomes for MTHE 2 had been achieved. Qualitative data were collected through 30-minute interviews, using an open-ended interview schedule, with each member of the sample. The interviews were done by a person who qualified both as an ‘insider and outsider’ in order to minimize the risk of bias and to maintain rigour in the research. In order to qualify as an ‘insider and outsider’, one ought to be as an insider: (a) from the same ethnic group, (b) qualified in Mechanical Engineering with Thermodynamics as a major course, (c) had no power disposition e.g. a former student or a laboratory assistant (excluding staff members within the mechanical engineering department) and as an outsider, one who was not part of the GEBL process. The quantitative scores from the assessments were analysed with Predictive Analysis Software (PASW) to determine the extent to which interventions had assisted student performance. The qualitative data from the interviews were analysed with N-Vivo to reveal the impact of GEBL on student learning and understanding of MTHE 2. The results indicated that with GEBL, the students’ overall scores improved from the first assessment score of 46% written on half of the first module to the final assessment score of 55% written on all seven modules. Students could handle larger volumes of work and still obtain a higher percentage. GEBL assisted students’ in recalling factual MTHE 2 concepts, understanding of MTHE 2 concepts, principles and applications. GEBL also enhanced students’ ability to communicate procedures and processes related to MTHE 2. KPIs formulated to measure the extent to which the outcomes were met in terms of student achievement indicated a 57% achievement thereof. The KPIs developed gave a percentage achievement of the specified outcomes for MTHE 2 with GEBL. Theses KPIs can be used in future to measure the effectiveness of different teaching and learning methods in terms of achieving the outcomes. It is therefore recommended that GEBL be introduced into other engineering courses also to assist students in understanding course content and in achieving the course outcomes.

Case studies of technical report writing development among student engineers

Sloat, Elizabeth A.

January 1994

No description available.

Engineering students

Technical writing

THE PERCEPTIONS OF INSTITUTIONAL MEMBERS OF THE NATIONAL ASSOCIATION OF MULTICULTURAL ENGINEERING PROGRAM ADVOCATES OF DIFFERENCES IN RETENTION INITIATIVES AND SUPPORT BY GRADUATION RATE

Cortner, Laquetta K.

27 July 2007

No description available.

Multicultural Engineering Students

Retention of Multicultural Students

Retention of Engineering Students

An investigation into spatial visualisation ability and drawing strategies in the training of designers in a Japanese context

Nagata, Takashi

January 1999

No description available.

700

Factors influencing attrition and retention of female students in the College of Engineering /

Brockett, Sheryl A.,

January 2002

Thesis (M.S.) in Human Development--University of Maine, 2002. / Includes vita. Includes bibliographical references (leaves 64-66).

A comprehensive integration of first year engineering education /

Shuman, Matthew W.

January 1900

Thesis (M.S.)--Oregon State University, 2009. / Printout. Includes bibliographical references. Also available on the World Wide Web.