Teaching 21st century skills to high school students utilizing a project management framework

Williamson, Charles David

08 February 2012

Educators, researchers, and government officials have concluded that today’s students, at all levels of the educational system, are lacking in the skills needed to ensure their success in the workplace. This awareness is driving a movement to change educational curricula to include skills training in the areas of communication, collaboration, critical thinking, and creativity. Collectively, these areas make up what are called “21st Century Skills.” The question becomes how to develop a program that effectively teaches these skills to students and how to get that program implemented into a usable curriculum. This thesis asserts that the direct study and application of the framework and specifically identified processes of project management (i.e. the key fundamental elements) is an effective methodology for building a foundation upon which to teach students “21st Century Skills”. Using the term “direct study” means that students are explicitly taught key terms, concepts, and processes of project management and then instructed to implement them in a project. The distinction being made here is the belief that, whereas some types of skills are better learned by simply doing, introduction to 21st century skills should be prefaced with some amount of theory and discussion and then reinforced with practical application. Several of the student project management programs discussed in Chapter 3 offer data that backs up this assertion. Additionally, a course outline for a proposed high school curriculum to teach students the key fundamental elements of project management is included in Appendix A. / text

21st century skills

Project management

High school curriculum

Applied skills

Project based learning

Guiding engineering design experiences through use of portfolios and rubrics

Krebsbach, Michael John

29 November 2012

The engineering mathematics course described in this report is designed to employ project based learning (PBL), using projects to teach and reinforce both mathematics and engineering concepts and applications in a hands-on format. One project involves building a bridge and allows students to conduct testing using standard procedures and to manufacture components with set cross-sectional areas and lengths in an assembly-like manner using a low cost material such as file folders. The students can use a free computer-aided design (CAD) program to facilitate the design as well as conduct virtual testing with no additional cost. The mathematics concepts covered by this project include: graphing, tables and trend analysis, determining the forces acting on individual joints as well as the overall structure, study of cross-sectional area versus length in determining the best support structure, evaluation of various materials for construction, and using measurement tools and technology to determine the amount of stresses and strains and the amount of deflection. All of these studies should enable the student to produce a scale diagram for the final bridge design and to conduct tests on the bridge structure in order to determine the factor of strength (weight held versus the weight of the bridge). The project addresses the use of portfolios as a means for documenting work and changes that have been undertaken during the design process. The use of a portfolio-based project enables the student to document with artifacts and written composition, how the design was determined, how testing was done, and overall lessons learned during the project. The portfolio then could be evaluated using a Design Process Rubric as a means for transferability of credit. / text

Engineering design experiences

Portfolios

Rubrics

Project-based learning

EDPPSR

West Point Bridge Building

Wikis in High Schools: an example of using Wikis for the Project course in Greek High Schools

Chatzistratidi, Fotini

January 2015

The use of ITs in education has created new opportunities for learning and has introduced new ways for knowledge acquisition. Web 2.0 technology presents a variety of tools that can support learning procedure in all levels of Education. Wikis constitute one of the most widespread tools that support cooperation and Project-based learning. This study examines the possibility of a wider use of Wikis for the “Project”, a course that has been taught in Greek High Schools for the last four years. Recently the Greek Ministry of Education attempted to make a shift from traditional learning methods to modern teaching ways that use ITs in all level of education. “Project” course constitutes a pilot course for this attempt and follows new innovating ways of learning. The course has an interdisciplinary character and aims to exploit the benefits of the Project-based learning and to enhance students to cooperation and interaction. The research explores the way that Wikis could support the basic aims of the course and the circumstances under which learners and teachers could be motivated for this use. This qualitative study was conducted in the 1st Lyceum of Eleusis, “Aristoteleio”, and followed the Action-oriented Research approach. The research included interviews with five teachers and a focus group of students. The main outcomes showed that important changes in the Greek Educational system should be done in order for this use to be enhanced.

Wikis

Project-based learning

cooperation

Greek Educational System

Qualitative study

Action-oriented Research

Design and Control of a Unique Hydrogen Fuel Cell Plug-In Hybrid Electric Vehicle

Giannikouris, Michael

January 2013

The University of Waterloo Alternative Fuels Team (UWAFT) is a student team that designs and builds vehicles with advanced powertrains. UWAFT uses alternatives to fossil fuels because of their lower environmental impacts and the finite nature of oil resources. UWAFT participated in the EcoCAR Advanced Vehicle Technology Competition (AVTC) from 2008 to 2011. The team designed and built a Hydrogen Fuel Cell Plug-In Hybrid Electric Vehicle (FC-PHEV) and placed 3rd out of 16 universities from across North America. UWAFT design projects offer students a unique opportunity to advance and augment their core engineering knowledge with hands-on learning in a project-based environment. The design of thermal management systems for powertrain components is a case study for design engineering which requires solving open ended problems, and is a topic that is of growing importance in undergraduate engineering courses. Students participating in this design project learn to develop strategies to overcome uncertainty and to evaluate and execute designs that are not as straightforward as those in a textbook. Electrical and control system projects require students to introduce considerations for reliability and robustness into their design processes that typically only focus on performance and function, and to make decisions that balance these considerations in an environment where these criteria impact the successful outcome of the project. The consequences of a failure or unreliable design also have serious safety implications, particularly in the implementation of powertrain controls. Students integrate safety into every step of control system design, using tools to identify and link together component failures and vehicle faults, to design detection and mitigation strategies for safety-critical failures, and to validate these strategies in real-time simulations. Student teams have the opportunity to offer a rich learning environment for undergraduate engineering students. The design projects and resources that they provide can significantly advance student knowledge, experience, and skills in a way that complements the technical knowledge gained in the classroom. Finding ways to provide these experiences to more undergraduate students, either outside or within existing core courses, has the potential to enhance the value of program graduates.

Growing Together Separately: An Analysis of the Influence of Individualism in an Alternative Educational Setting

Warren, Jessica L.

01 January 2014

Alternative educational settings that attempt to challenge Individualism are pervaded by Individualizing influences from the larger school system. This thesis examines the influences of Individualism in a school garden program at a Southern California continuation high school. Program members included high school students, college student interns, and two co-directors. Research was conducted during the spring semester of 2014. By providing an analysis of the Individualizing and non-Individualizing influences present in the program and the ways in which these influences interacted to inform the program structure and program members’ experiences and understandings, my thesis sheds new light on the complex ways alternative educational settings incorporate some aspects of Individualism, even as they challenge it.

Individualism

Continuation School

Alternative Education

Project-Based Learning

Discipline

Success and Failure

Social and Cultural Anthropology

Agens i matematikundervisning : En jämförande studie av elevers agens och makt i lärandesituationer där IKT används / Agency in the mathematics classroom in the context of ICT pedagogy : A comparative study of students’ agency and power in learning situations where ICT is used

Winnberg, Mattias

January 2014

The purpose of this study is to investigate how power is distributed in the mathematics classroom and how students achieve agency when ICT (Information and communication technology) is used as a teaching tool. Three learning situations, structured by mathematics, are analysed: in the first situation mathematics is taught in a traditional way, in the second mathematics is taught in interdisciplinary projects, and in the third mathematics is taught using ICT as a pedagogical tool. The theoretical concepts of power and agency are used as analytical tools within a socio-political framework. The concept of power is used to assess the students’ ability to influence their learning and degree of inclusion in the three learning situations. The power aspect is assumed to influence the students’ ability to achieve agency. Based on an ecological understanding of the concept, agency is examined by assessing the quality of students’ engagement in the learning situations. Also, the degree to which the students are in control of their actions is assessed. Data was collected through participant observation, questionnaires and in-depth interviews. Linguistic text analysis was used as a tool to analyse the transcripts from the interviews. The results suggest that students can achieve agency in situations where ICT is used as a pedagogical tool to enable collaboration between students. However, ICT can also distract students, which in turn can limit their achievement of agency. Furthermore, it is suggested that the results may have implications for our understanding of the concepts of power and agency in relation to ICT in a wider social context beyond the classroom. Finally, it is proposed that the question of how the distribution of power and agency influence learning when ICT is used in the mathematics classroom should be subject to further research.

Mathematics education

socio-political perspective

agency

power

learning situations

ICT

project based learning

An Investigation On The Effects Of Project-based Learning On Students

Ozdemir, Esra

01 April 2006

Although geometry is important area in the mathematics curriculum, evidence from numerous research studies makes it clear that many students&rsquo / geometrical understanding is not at the level they need or are expected to be, especially in Turkey. The project-based learning approach offered to be one of the most effective learning tools to provide for the students an environment in which they can reach their own conclusions instead of just lecturing them, in the new mathematics curriculum in Turkey. In this study, the effects of project-based learning on the 7th grade students&rsquo / achievement in geometry and these students&rsquo / attitude towards geometry were examined. This study was conducted with a group of 24 seventh grade students in the Bilim College during the last five weeks of the 2004-2005 academic year. One group pre-test and post-test design was used. The instruments used for data collection are as follows: polygon, circle and cylinder achievement tests, geometry attitude scales, student survey forms, teacher&rsquo / s observation scales, and interviews. The data obtained was analyzed by a paired-sample t-test. The results from achievement tests and attitude scale indicated that project-based learning increased students&rsquo / geometry achievement and attitudes toward geometry, respectively. The student survey form and interview responses of the students, teacher&rsquo / s observation form responses of the teachers and the observation of the researcher also suggest that project-based learning increased their achievement in and their attitudes towards geometry as a result of making their own models, dealing with authentic daily life problems, determining the dimensions and the areas by trial and error. Moreover, this study helped grasp the attention and increase the desire to study particularly of those students with high capacity who performed unsatisfactorily due to their inclination to get distracted during classes. Providing those who were easily distracted and used every chance to disrupt the lectures with the opportunity to engage in something they could see as their own project brought about favorable results.

LB Primary Education 1501-1547

Recomendação de conteúdo em um ambiente colaborativo de aprendizagem baseada em projetos / Content recommendation in a collaborative project-based learning environment

Acosta, Otávio Costa

January 2016

São muitas as pesquisas nos dias de hoje que buscam por métodos e ferramentas para aumentar a autonomia do aluno na condução dos processos de aprendizagem, uma vez que os métodos tradicionais de ensino nem sempre se mostram eficazes na formação de estudantes com capacidade crítica, coerente com as necessidades do mundo atual. O presente trabalho tem como objetivo investigar de que modo uma atividade de Aprendizagem Baseada em Projetos (ABPr), apoiada por um ambiente tecnológico desenvolvido para este fim, pode contribuir no desenvolvimento de projetos por meio de recursos de recomendação de conteúdo e ferramentas de colaboração entre pares. Para isto é utilizado uma abordagem ativa de aprendizagem, a ABPr, definida como um método de aprendizagem centrado no aluno e que enfatiza atividades para o desenvolvimento de projetos. Durante este processo os alunos podem tomar suas próprias decisões e agir sozinhos ou em grupos. Para a aplicação do método proposto foi estruturada uma atividade educacional, que consiste no desenvolvimento de um projeto a partir das investigações dos alunos em relação a um tema proposto pelo professor. O desenvolvimento deste projeto se inicia e termina em sala de aula, entretanto as fases intermediárias podem ocorrer em outros locais. Para a execução da atividade foi desenvolvida uma ferramenta que incentiva a colaboração entre os alunos. Isto permite uma maior interação entre os participantes e também a possibilidade dos alunos colaborarem nos projetos uns dos outros. Durante o desenvolvimento de seus projetos, a ferramenta sugere materiais complementares relacionados ao assunto tratado, como forma auxiliar os alunos em seus processos investigativos. Para a avaliação do trabalho proposto foi estruturada uma pesquisa quali-quantitativa, na modalidade estudo de caso, com coleta de dados por meio da análise de projetos, registro de atividades, questionários e entrevistas. Os resultados obtidos através dos experimentos realizados demonstraram que a atividade educacional proposta por este trabalho contribuiu de forma significativa para o desenvolvimento de projetos e para uma maior interação entre os alunos. / Many research works focus on the development of methods and tools to increase student autonomy in the conduct of learning processes, as traditional teaching methods are not always effective in training students with critical skills, in accordance with the needs of today's world. This study aims to investigate how a Project-based Learning (PBL) activity, supported by a technological environment developed for this purpose, can contribute to the development of projects by means of content recommendation resources and collaboration tools among peers. For this reason, an active learning approach is used, PBL, defined as a student-centered learning method that emphasizes activities for project development. During this process students can make their own decisions and act alone or in groups. For the application of the proposed method an educational activity was structured consisting in the development of a project based on students' investigations related to a topic proposed by the teacher. The development of this project starts and ends in the classroom, but the intermediate stages can occur in other places. For the execution of the activity, a tool was developed for fostering collaboration between students. This allows a higher interaction between participants and the possibility of students to collaborate on each other's projects. During the development of their projects, the tool suggests additional materials related to the subject at hand, as a way to assist students in their research processes. For the evaluation of the proposed work a quali-quantitative study was structured, with data collection performed from project analysis, activity logging, questionnaires and interviews. Results from the experiments performed showed that the educational activity proposed by this work contributed significantly to the development of projects and for a higher interaction among students.

Aprendizagem colaborativa

Project-based learning

Collaboration

Recommender systems

Explore-Create-Share study: an evaluation of teachers as curriculum innovators in engineering education

Berry, Ayora

13 March 2017

The purpose of this study was to investigate the effects of a curriculum design-based (CDB) professional development model on K–12 teachers’ capacity to integrate engineering education in the classroom. This teacher professional development approach differs from other training programs where teachers learn how to use a standard curriculum and adopt it in their classrooms. In a CDB professional development model teachers actively design lessons, student resources, and assessments for their classroom instruction. In other science, technology, engineering and mathematics (STEM) disciplines, CDB professional development has been reported to (a) position teachers as architects of change, (b) provide a professional learning vehicle for educators to reflect on instructional practices and develop content knowledge, (c) inspire a sense of ownership in curriculum decision-making among teachers, and (d) use an instructional approach that is coherent with teachers’ interests and professional goals. The CDB professional development program in this study used the Explore-Create-Share (ECS) framework as an instructional model to support teacher-led curriculum design and implementation. To evaluate the impact of the CDB professional development and associated ECS instructional model, three research studies were conducted. In each study, the participants completed a six-month CDB professional development program, the PTC STEM Certificate Program, that included sixty-two instructional contact hours. Participants learned about industry and education engineering concepts, tested engineering curricula, collaborated with K–12 educators and industry professionals, and developed project-based engineering curricula using the ECS framework. The first study evaluated the impact of the CDB professional development program on teachers’ engineering knowledge, self-efficacy in designing engineering curriculum, and instructional practice in developing project-based engineering units. The study included twenty-six teachers and data was collected pre-, mid-, and post-program using teacher surveys and a curriculum analysis instrument. The second study evaluated teachers’ perceptions of the ECS model as a curriculum authoring tool and the quality of the curriculum units they developed. The study included sixty-two participants and data was collected post-program using teacher surveys and a curriculum analysis instrument. The third study evaluated teachers’ experiences implementing ECS units in the classroom with a focus on identifying the benefits, challenges and solutions associated with project-based engineering in the classroom. The study included thirty-one participants and data was collected using an open-ended survey instrument after teachers completed implementation of the ECS curriculum unit. Results of these three studies indicate that teachers can be prepared to integrate engineering in the classroom using a CDB professional development model. Teachers reported an increase in engineering content knowledge, improved their self-efficacy in curriculum planning, and developed high quality instructional units that were aligned to engineering design practices and STEM educational standards. The ECS instructional model was acknowledged as a valuable tool for developing and implementing engineering education in the classroom. Teachers reported that ECS curriculum design aligned with their teaching goals, provided a framework to integrate engineering with other subject-area concepts, and incorporated innovative teaching strategies. After implementing ECS units in the classroom, teachers reported that the ECS model engaged students in engineering design challenges that were situated in a real world context and required the application of interdisciplinary content knowledge and skills. Teachers also reported a number of challenges related to scheduling, content alignment, and access to resources. In the face of these obstacles, teachers presented a number of solutions that included optimization of one’s teaching practice, being resource savvy, and adopting a growth mindset.

Education

Design-based learning

Instructional design

Project-based learning

STEM education

Engineering education

Teacher professional development

Sedlčansko a okolí v literárních pověstech (na základě vybraných děl) / The area of Sedlčany in literary legends (based on chosen literary works)

MUSÍLKOVÁ, Michaela

January 2017

The diploma thesis looks into literary legends of the Sedlčany and its closest area which is defined by cultural and geographical demarcation of the region. The four-volume Legends of Sedlčany area by regional author Karel Bazal are understood as the essential material of the thesis. The diploma thesis also aims to briefly summarize life and work of this author as well as to place him to literary context of the period. Focus will be paid to interpretation of characters as well as to interpretation of legends which will be based on assorted heuristic material. The diploma thesis will not only use theory of regional literature and genologic demarcation of legends, but it will also include photos of chosen places in Sedlčany area and design of project based learning based on interdisciplinary relations (prepared for secondary school class).