This resource is composed of materials from Wayne State University's professional development workshops which are designed to introduce educators to hybrid electric and electric vehicle fundamentals. Included materials are an event agenda, faculty presentations, and fliers.
Applied Science Textbooks and Full Courses
23 Things is a suite of 23 self-paced online modules that cover a range of topics from video editing to basic coding. Each module or 'thing' consists of information, interactive activities, and invitations to try out various open and free software applications and technologies. The modules have been created using H5P and can be downloaded individually as a single H5P file, modified and re-used under a CC-BY-SA licence - simply click on the 'reuse' link at the bottom of each module.
The content was created by Curtin University students as part of a 'students as partners' project.
The following course was created by Grand Rapids Community College (GRCC), through seed funding from theCAAT, to train workers for entry level positions in the advanced energy manufacturing industry. The course is designed around OSHA's "Standards for General Industry" and if taught by an authorized General Industry Outreach Training Program Instructor, students should receive an OSHA General Industry 30-hour Safety certification. Instructional materials include PowerPoint presentations, instructor notes, OSHA instructor and student manuals (handouts/assignments), and lesson objectives. All lessons are intended to be taught through PowerPoint presentations with guidance from the included lesson objectives and notes for instructors. The included PowerPoints are original OSHA presentations modified by GRCC and originals created by GRCC. The lesson topics are: Introduction to OSHA Safety and Health Programs, Hazard Mapping, Personal Protective Equipment, Exit Routes and Emergency Action Plans, Fire Protection and Prevention, Electrical Hazards, Ergonomics and Manual Material Handling, Walking and Working Surfaces, Industrial Hygiene, Flammable and Combustible Liquids Hazard CommunicationExit Routes and Emergency Action Plans, Fire Protection and Prevention, First Aid and CPR, Hand and Power Tool Safety, Machine Guarding, and Control of Hazardous Energy (Lockout/Tag-out).For more information on the course visit https://learning.grcc.edu/ec2k/CourseListing.asp?master_id=777&course_area=CEMF&course_number=102&course_subtitle=00.
This guide takes the reader through the 3D Printing for Repair (3DP4R) process. It consists of guidelines and tools to create a 3D printable version of spare parts needed for a product repair. 3D printing a spare part is more than just printing the original part. Instead, it is an iterative process in which the part is analysed, redesigned, manufactured, and tested, in order to come to a final part. This guide will describe these four phases in detail. The guide is meant for anybody who is interested in trying to manufacture spare parts with 3D printing technologies, remakers, tinkerers, volunteer repairers, professional repairers, and everyone who is interested in repair initiatives.
Students and professionals in science, design and technology have to develop and communicate concepts that are often difficult to comprehend for the public, their peers and even themselves.
IMAGE | ABILITY – Visualizing the Unimaginable, will help you enhance your communication and interpersonal skills and provide insight, tips and tricks to make such complex and seemingly unimaginable concepts and ideas imaginable.
After finishing this course you will be more skilled in finding the right visual language to convey your ideas, thoughts and vision. You will be able to illustrate units and quantities, concepts and themes and you will know how to unravel complexity by using diagrams and schemes.
This eBook was written as the sequel to the eBook titled DC Circuits, which was written in 2016 by Chad Davis.
This eBook covers Alternating Current (AC) circuit theory as well us a brief introduction of electronics. It is
broken up into seven modules. Module 1 covers the basic theory of AC signals. Since only DC sources are used in
the first eBook, details of AC signals such as sinusoidal waveforms (or sine waves), square waves, and triangle
waves are provided. Module 2, titled AC Circuits Math Background, covers the mathematics background needed
for solving AC circuit problems. The background material in Modules 1 and 2 are combined in Module 3 to solve
circuits with AC sources that include resistors, inductors, and capacitors (RLC circuits).
An essential and practical text for both students and teachers of AC electrical circuit analysis, this text picks up where the companion DC electric circuit analysis text leaves off. Beginning with basic sinusoidal functions, ten chapters cover topics including series, parallel, and series-parallel RLC circuits. Numerous theorems and analysis techniques are examined including superposition, Thévenin's theorem, nodal and mesh analysis, maximum power transfer and more. Other important topics include AC power, resonance, Bode plots and an introduction to three-phase systems. Each chapter begins with a set of chapter objectives and includes a summary and review questions. A total of over 500 end-of-chapter exercises are included. A companion laboratory manual is available.
AIRS is an open source set of online modules and resources in research skills and knowledge. It provides the grounding in research processes with practical tools to support you.
AIRS is a mandatory coursework requirement for Higher Degree Research (HDR) students enrolled in a Doctor of Philosophy (PhD) or Master of Philosophy (MPhil), at the Queensland University of Technology (QUT).
This course contains five projects, plus a course introduction and course closure, that are organized around the following question: “How can we rethink our use of the world’s resources?” Each project involves investigations of sustainability that help contextualize the content required by the new College Board course framework.
Produto educacional: Atlas de interpretação literária envolvendo o ensino das Ciências Ambientais.
This three credit course offered at Macomb Community College discusses the practical application of hybrid electric vehicle (HEV) power management systems. Areas of study include computer controls of the internal combustion engine (ICE), battery types, HEV thermal management, motors, safety, and HEV/EV accessories. System types, service procedures, and diagnostic procedures are covered for Ford, General Motors, Honda, and Lexus/Toyota vehicles. Included educational materials for this course are homework, sample exams and quizzes, labs, lesson plans, pre-assessment, and syllabus. Solutions are not provided with any materials. If you're an instructor and would like complete exams, quizzes, or solutions, please contact theCAAT. This course is composed of six modules that can be used to supplement existing courses or taught together as a complete course. These modules are Intro to HEVs,Honda HEVs, Toyota HEVs,Ford HEVs, GM HEVs, and Fuel Cells
This four credit course offered by Macomb Community College provides practical training in the theory and basic design aspects of electric vehicle propulsion systems and is a required course for MCC's Electric VehicleDevelopment Technology Certificate. Primary subjects covered include rationale forelectric vehicles(EVs), safety, battery technologies, basic battery testing, electric machine (motor) types, electric machine operation, power management, power inverters, DC to DC converters, accessory systems, and potential future technologies. Educational materials included arethe first day handout, detailed course outcomes, homework (no solutions), labs, pre/post assessments, presentations, sample quizzes/exams, syllabus, and more. If you're an instructor and need access to homework solutions or complete exams/quizzes, please contact theCAAT. This course is composed of nine modules thatcan be used to supplement existing courses or can betaught together as a complete course.These modules are The Need for EVs, EV Safety, Introduction to Battery Chemistry, Battery Pack Integration with Vehicle Systems, Electric Machines (DC Motors, AD Induction Asynchronous Motors, Permanent Magnet Synchronous Motor, and Switched Reluctance Motors), Power Inverter/Electronic Motor Controls, DC to DC Converters, Vehicle Accessory Systems, and Introduction to Advancing Technology (Fuel Cells, Ultra Capacitors, and Hydraulic Propulsion)
How do I use this resource?
Join our community by creating a free and safe PubPub Account:
Then, participate in this dynamic eBook and community. Update, annotate, comment, download, upload videos and podcasts and share chapters to your own digital spaces and networks.
Academic Entrepreneurship for Medical and Health Scientists, is a free open education resource that can be used asynchronously in courses, workshops, pilot grant programs, and by individuals.
Who is an academic entrepreneur?
Faculty, staff, or students turning observations in the laboratory, clinic, and community into interventions that improve the health of individuals and the public and seeking to:
- patent and/or license their work
- spin-out or spin-in ventures based on evidence
- collaborate with industry to realize impact
5 Primary Domains: Over 500 pages of content
How do I use this book at my institution?
If you identify faculty teaching biomedical entrepreneurship at your institution (classes, workshops, etc.), we can reach out, assist with suggesting chapters relevant to their syllabus if interested, and provide optional tracking data so they can view their students’ access/use of the material. Contact us! https://www.med.upenn.edu/apps/faculty/index.php/g275/p12240
I want to contribute!
This is a living e-book which is publicly available and licensed with creative commons. It has potential for frequent updates and we welcome contributions from new authors. Contact us! https://www.med.upenn.edu/apps/faculty/index.php/g275/p12240
Are you a visual learner? Try our interactive Prezi: https://www.bit.ly/AcadEnt
General James Clapper, former United States Director of National Intelligence and the National Geospatial-Intelligence Agency (NGA), once said \everything happens somewhere.\" He stressed that there are aspects of time and place to every intelligence problem. In this course, you will examine how time and place work with general intelligence techniques to create geospatial intelligence. You will learn and apply critical thinking skills, structured analytical techniques, and other intelligence methods in a geospatial context. You'll also learn how to reduce personal and organizational bias by conducting an Analysis of Competing Hypotheses, by R. Heuer, a 45-year veteran of the CIA. As a result, you will be better prepared for the world of geospatial intelligence analysis."
- Information Science
- Material Type:
- Full Course
- Penn State's College of Earth and Mineral Sciences
- Dennis Bellafiore
- Todd Bacastow
- Date Added:
This course introduces the basic components of an airframe structure and discusses their use and limitations. The realities of composite design such as the effect of material scatter, environmental knockdowns, and damage knockdowns are discussed and guidelines accounting for these effects and leading to robust designs are presented.
The resulting design constraints and predictive tools are applied to real-life design problems in composite structures. A brief revision of lamination theory and failure criteria leads into the development of analytical solutions for typical failure modes for monolithic skins (layup strength, buckling under combined loads and for a variety of boundary conditions) and stiffeners (strength, column buckling under a variety of loads and boundary conditions, local buckling or crippling for one-edge and no-edge-free conditions). These are then combined into stiffened composite structures where additional failure modes such as skin-stiffener separation are considered. Analogous treatment of sandwich skins examines buckling, wrinkling, crimping, intra-cellular buckling failure modes. Once the basic analysis and design techniques have been presented, typical designs (e.g. flange layup, stiffness, taper requirements) are presented and a series of design guidelines (stiffness mismatch minimization, symmetric and balanced layups, 10% rule, etc.) addressing layup and geometry are discussed. On the metal side, the corresponding design practices and analysis methods are presented for the more important failure modes (buckling, crippling) and comparisons to composite designs are made. A design problem is given in the end as an application of the material in this Part of the course.
Theoretical topics of fluid dynamics relevant to natural phenomena or man-made hazards in water and atmosphere. Basic law of fluid motion. Scaling and approximations. Slow flows, with applications to drag on a particle and mud flow on a slope. Boundary layers: jets and plumes in pure fluids or in porous media. Thermal and buoyancy effects, selective withdrawal and internal waves. Transient boundary layers in impulsive flows or waves. Induced streaming and mass transport. Dispersion in steady flows or in waves. Effects of earth rotation on coastal flows. Wind induced flow in shallow seas. Stratified seas and coastal upwelling.
This course will explore the mutual influences of ideas of nature, theories of city design and planning, and practices of urban design, construction, and management. We will investigate how natural processes shape urban landscapes (from the scale of street corner to region) and how to intervene strategically in those processes in order to achieve certain goals. We will examine cases of cities that adapted successfully to natural processes and those that did not. Students will then have the opportunity to research a case of their choice and to present their findings for discussion. The subject may be historical or an an example of contemporary theory and practice. Additional information is also available at Professor Spirnâ€™s class website.
This course is designed to introduce students who wish to specialize in stress analysis of thin-walled structures to more advanced topics such as the analysis of statically indeterminate structures, warping, constraint stresses, shear diffusion, and elements of plate bending.