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An Evaluation of Necessary Elements for Desirable Industrial Arts Instruction in the Elementary Schools of UtahRalphs, Lee W. 01 May 1951 (has links)
An essential part of the elementary school curriculum is the creative activity program connected with it. Educators believe that the fullest development of the child can best be attained through a program which provides a series of well selected experiences and activities. At present education considers the whole child-his abilities, needs, and interests-as vital factors in the development of a good curriculum, instead of merely the concrete and formal subject matter. Recently there has been an expressed view, by administrators of elementary school systems and many authorities and industrial arts teachers, that there is a definite need for formulating an effective plan of instruction for industrial arts in the elementary school program. This need has occured because of the varied programs and confusion of current practices that exist in the activity programs of the elementary school, and the belief that industrial arts, probably more than most other subjects, can contribute to the activity program and the development of the whole child. The problem of this study was to procure and evaluate the opnions of industrial arts authorities and the opinions of Utah school administrators on the necessary elements for desirable industrial arts instruction in the elementary schools. This investigation was not attempted for the purpose of developing a course of study of industrial arts to be considered as a part of the elementary curriculum; nor was it the purpose to go into any detail about the innumberable possible problems that would have to be considered in introducing it as a subject ara. The writer limits this study to the evaluation of effective instructional elements that could be incorporated, with modifications, into a plan of instruction for industrial arts in the elementary schools of Utah.
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The Status of Metric Conversion in Industrial Education Programs in Utah With Recommendations for Statewide Training ProgramsBrames, Thomas J. 01 May 1975 (has links)
The purpose of this study was to obtain information from Industrial Education teachers in Utah concerning their feelings and attitudes toward conversion to the Metric System in the United States and to determine their present familiarity with that system. The study was also designed to identify potential problem areas which would tend to influence educational programs on the Metric System for Industrial Education teachers in Utah.
A select sample of four-hundred twenty-three Industrial Education teachers representing over twenty occupational areas was chosen as the population for the study. Two-hundred ninety-seven usable questionnaires (70.2 per cent) were returned and tabulated as follows 1. the total group of Industrial Education teachers responding to the survey 2. each occupational area was tabulated separately, and 3. each occupational area was compared to the total group of Industrial Education teachers responding to the survey.
The study focused on obtaining answers to the five following questions:
1. How familiar are Industrial Education teachers in Utah with the base units of the Metric System?
2. Which subject area teachers have the least understanding of the base units of the Metric System?
3. Which sources of Metric System information have been of greatest value to Industrial Education teachers as sources of general and teaching information?
4. What types of educational programs would be appropriate for familiarizing Industrial Education teachers with the Metric System?
5. Which type s of metric information are currently being used by Industrial Education teachers in Utah?
The analysis of the data and the basic findings of the study warranted the following conclusions:
1 . Industrial Education teachers in Utah are in need of instruction in various portions of the Metric System of measurement. Electronics teachers as a group, do not need further instruction, since electronic s is already taught using metric terminology and measurement.
2. Woods teachers do not see the necessity for metric measurement in their occupation, nor do they see economic advantages in the conversion.
3. Curriculum guide s in Utah have been of little value to Industrial Education teachers in Utah, as sources of metric information.
4. Most subject area textbooks are not written in Metric terminology and are of little value to Industrial Education teachers as sources of metric information.
5. The Utah State Board of Education needs to provide additional guidance for Industrial Education programs on conversion to the Metric System of measurement.
6. General informational programs on the Metric System as well as specific instruction on the use and application of the Metric System of measurement are needed by Industrial Education teachers in Utah.
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“Must have that Business Intelligence…!” How to illustrate complex processes by interactive exercises and role playingKans, Mirka, Williamsson, Ia January 2012 (has links)
In enterprises we find many complex processes consisting of several sub-processes and actors, each of them contributing to the end outcome. Teaching on complex processes is not easy if the aim is deep knowledge regarding the processes and how different activities and choices will affect the final outcomes. An example of a complex process is the Enterprise Recourse Planning (ERP) systems procurement. A lot of different business representatives are involved in the procurement project, each with their opinion on how the optimal solution looks like. These opinions are often conflicting and the demands too many to be included in the formal requirements specification. Sometimes the requirements are the same, but expressed in different terms. Definition and selection of requirements is one of many potential pitfalls of Information Technology (IT) procurement which is dealt with during a half day exercise in ERP procurement in the course “Integrated Business Solutions”. Through role playing the students experience the transformation of theories into practice by identifying, arguing for or against and thereafter agree upon a limited list of requirements. Another complex activity is the evaluation of alternatives, where the students first need to find suitable candidate systems and thereafter assess how well these satisfy the formulated requirements. The vendor web pages and an online search function provided by a consultant are used. This gives a good basis for discussions regarding assessment of information sources and how decision making is affected by available information. This article describes the purpose and implementation of the above mentioned exercise. The exercise serves as an exemplification of how to create active learning situations that provide hands-on experiences and puts the problem solving and analysis abilities in a real context. Different skills trained during the exercise are highlighted using the Conceive-Design-Implement-Operate (CDIO) syllabus. The article also identifies pitfalls to be avoided when creating this kind of learning situations.
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Impact of water resources risk analysis on engineering education in rural counties a thesis presented to the faculty of the Graduate School, Tennessee Technological University /Boynton, Matthew A., January 2009 (has links)
Thesis (M.S.)--Tennessee Technological University, 2009. / Title from title page screen (viewed on Mar. 2, 2010). Bibliography: leaves 56-58.
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A guide for planning unique engineering design challenges and an example unitJones, Jack Osban 16 April 2013 (has links)
This report describes a generic capstone design project for a high school engineering course. In this unit, the design process is cycled thrice with declining amounts of structure and support. Students are expected to become increasingly independent in the design process by the end of the unit. The generic unit can accommodate many themes, but in order to give a through description, the report focuses on the design of a hovercraft. The bulk of the report presents engineering content needed to design RC hovercraft but readers will hopefully see the hovercraft as more of an example instead of the example. My intention is to inform other teachers of a generic way to conduct this type of engineering unit. Any brevity or lack of detail should be viewed as an opportunity for personalization and creativity. The report includes a review of relevant literature on the topics of student interest and motivation affecting achievement, recommendations on curriculum guidelines by a national review committee and some discussion on coaching students from novice to expert performance / text
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Educational principles for engineering behaviour learning strategiesMcKenzie, Ian W. January 1990 (has links)
No description available.
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Using Offline Activities to Enhance Online Cybersecurity EducationPadlipsky, Sarah 01 December 2018 (has links)
Since the beginning of the 21st century, the United States has experienced the impact of a technological revolution. One effect of this technological revolution is the creation of entirely new careers related to the field of technology, including cybersecurity. Continued growth in the cybersecurity industry means a greater number of jobs will be created, adding to the existing number of jobs that are challenging an under-educated and under-trained workforce. The goal of this thesis is to increase the effectiveness of cybersecurity education. This thesis studies whether an online course in cybersecurity can be enhanced by offline, in-person activities that mirror traditional classroom methods. To validate the research, two groups of high school students participated in an online course with only one group participating in offline activities. The results showed that the group that participated in both the online and offline portions of the course had a higher percentage of student retention, a more positive mindset towards cybersecurity, and an improved performance in the course.
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Module 10: Introduction to Fusion 360 Part IICraig, Leendert 01 January 2022 (has links)
https://dc.etsu.edu/engr-1110-oer/1010/thumbnail.jpg
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Understanding Industry’s Expectations of Engineering Communication Skillsde Souza Almeida, Lilian Maria 01 May 2019 (has links)
The importance of communication in the engineering profession is widely acknowledged by various stakeholders, including industry, academia, professional engineers, and engineering students. Even though alternative strategies to help students improve their ability to communicate professionally have been approached by many engineering programs across the country, research indicates a continued dissatisfaction of employers when it comes to the performance of engineers as communicators in the workplace. This perspective suggests efforts to improve students’ communication skills in universities may be inconsistent with workplace needs, revealing an apparent gap between what is taught and what is expected from engineering professionals. This gap provides an opportunity for additional research to identify the specific communication competencies required for engineers to succeed in the workplace. Particularly, the requirements of industry concerning engineers’ communication skills need to be understood more deeply, so that new educational interventions may be carefully tailored according to employers’ expectations and that both communication and engineering faculty can revisit their strategies to teach students to become better communicators. In order to obtain a deeper understanding of industry’s expectations concerning engineering communication skills, a qualitative research study was implemented to provide a detailed description of the communication skills practicing engineers need while working in industry. The exclusive focus on industry was pursued through the development of case studies. Four industrial segments (High-Tech, Automotive, Aerospace, and Manufacturing) that employ a significant percentage of engineers in the U.S. were selected. Engineers in leadership positions from each of the selected industrial segments participated in in-depth interviews and discussed about the expected engineering communication skills in industry. The results revealed that: 1) oral communication is prevalent in the engineering profession; 2) engineers need to tailor their messages to multiple audiences and to select the most appropriate type of communication medium; 3) written communication is expected to be clear, concise, and precise; 4) global communication is an increasingly demanded requirement in industry.
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Understanding Culturally Relevant Engineering Education in Multiple Settings: A Case Study of NigeriaMoses Olayemi (16668120) 07 August 2023 (has links)
<p>This dissertation is premised on using an asset-based framework to investigate how engineering educators provide culturally relevant engineering education to Nigerian students at the undergraduate level. Its research questions are as follows: <i>How do engineering educators provide culturally relevant teaching to Nigerian students? What can we learn about culturally relevant teaching in engineering education from a comparative study of institutions and educators in the Nigerian context? What are the affordances, challenges, and recommendations</i><i>?</i> This dissertation leverages the socio-psychological teacher conceptions of “knowledge,” “social relations,” and the “self” and “others” described by Gloria Ladson Billings’ culturally relevant pedagogy (CRP) framework. Schools located in all six of Nigeria’s geopolitical zones and participants fluent in her three major spoken languages are represented in the study. The analyzed data for this study include surveys, in-person and virtual classroom observations, teacher reflection journals, classroom artifacts, school policy documents, and semi-structured interviews with 37 engineering faculty members, 2 provosts, 5 engineering college deans, and 2 students. The findings reveal a strong penchant for <b>analogies and proverbs as analogical bridges</b> that engineering instructors in this context used when traditional experiments, classroom demonstrations, or available educational resources failed. Nuances of culturally-relevant teacher conceptions include: <u>using proverbs to build cognitive reasoning in Nigerian engineering classrooms; visual and auditory cues as a type of formative feedback; analogies as a pedagogical form; advocating for active and authentic learning through tutorials; leveraging the communal nature of the culture in the classroom; colonial antecedents responsible for certain school policies; manifestations of Ladson-Billings’ conceptions in this context; and peculiarities of the three CRP criteria in this context.</u> The dissertation concludes with implications of the study for culturally relevant engineering education and useful recommendations for instructors looking for culturally relevant ways of supporting students of Nigerian origins in their engineering classrooms.</p>
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