This Word document contains answers to several problems in Units 1 and 2 in Math for Manufacturing: Student Workbook, by Ray Prendergast.
Answer key for Unit 7: Beyond Arithmetic of Math for Manufacturing: Student Workbook, by Ray Prendergast.
Biotechnology Foundations, 2nd Edition, 2019, was created to provide free open-access teaching and learning resources for two Introduction to Biotechnology courses at Austin Community College, Biotechnology Program (Intro to Biotech I BIOL1414 & Intro to Biotech II BIOL1415). This book provides the foundation of chemistry, biology, and microbiology needed to build biotechnology laboratory science workforce skills. The goal of this book is to encourage both faculty and student adoption and active, engaged use in the classroom and provide the resources students need to succeed as entry-level laboratory technicians.
This book is available online at the OpenStax CNX platform. It can be downloaded as a PDF, read online, or downloaded and read offline.
To retrieve the book: https://cnx.org/contents/XcbB5HTY
Teaching Ancillaries available: PPT lectures, teaching guide, pacing schedule, lab manual, course objectives, eBook PDF, editable MS word format for each chapter.
To retrieve the ancillaries: https://tinyurl.com/BF-2-Resources
This competency-_based course prepares students for entry_ level positions in the cabinetmaking industry. Included in the course are cabinet design and styles, the use of advanced machines and equipment, computer_-aided manufacturing, special materials and commercial wood finishes and including green sustainable techniques and materials. Students will demonstrate their knowledge and skills by designing and building advanced wood projects. This course is for juniors and seniors only and may be taken for two years.
This site explores career options in advanced manufacturing, automotive, construction, energy, financial services, health care, hospitality, information technology, retail, and transportation industries, as well as in emerging industries -- biotechnology, geospatial technology, and nanotechnology. Learn which industries are growing, how to qualify for a good job, and where to get started.
These videos show the types of work people do in nearly 550 careers, organized by the 16 career clusters recognized by the U.S. Department of Education.
This video offers insight into the activities during the implementation of the Erasmus+ KA202 project "Future Trends in Clothing: Trendy, Smart and Healthy" (2018-2020).In this project three vocational schools from Austria, Spain, Germany cooperated with a general high school from Greece. The video is a documentation of the project's reached milestones, the great personal and work experiences we all gained during our international cooperation.It also shows how the work of everyone involved was still successfully concluded under the conditions of the Corona virus pandemic. Even if we where not able to manufacture & market our finalized product idea as planned, the skills we developed, shared and improved along the way are not less valuable.Now, enjoy the video and of course bear in mind ...“The European Commission support for the production of this publication does not constitute an endorsement of the contents which reflects the views only of the authors, and the Commission cannot be held responsible for any use which may be made of the information contained therein.”
Since the CoVID19 pandemic, essential workers have been impacted beyond that of others in the labor force. Statistics on nonmedical essential workers and how CoVid19 affects their health and livelihood are lacking. No centralized reporting exists and corporations do not either collect or provide this data. This OER attempts to bring together various sources information from March-July 2020 for future research. This material is a compilation of original sources of varying restrictions to be used for educational purposes, so I have chosen the CC BY NC ND license.
Fundamentals of Laboratory Management is designed to serve as an introductory guide to laboratory, quality and regulatory system in laboratories for biotechnicians.
This guide is intended to support you in adapting the State of Innovation’s “Our Communities after COVID-19” Challenge case into a lesson plan to implement with your students. It includes background information on the case, problem solving questions for students to work on, and suggested activities to use with your students. It also explains how you can get support during the Challenge, including helping your students connect with industry leaders throughout the Challenge.
This unit examines the use of polymers and demonstrates how the properties of polymers are controlled by their molecular structure. You will learn how this structure determines which polymer to use for a particular product. You will also explore the manufacturing techniques used and the how the use of polymerisation can be used to control the structure of polymers.
Introduces the student to the changing era of machining technology, emphasizing terminology, referencing and applications related to manufacturing environments. The fundamental use of bench tools, layout procedures, materials, precision measuring tools, machining processes, drilling and cut-off machines and other machining/manufacturing processes will be stressed. Skill competencies and standards will be identified.Students will perform basic lathe operations, which will consist of facing, center-drilling, chuck turning, turning between centers, boring, grooving, tapers, knurling, and single point threading.Teaches students to identify the major parts of the vertical mill, align a vise, use an indicator, edge finder, and boring head, determine speeds and feeds perform simple indexing, mill flat, square surfaces and slots, drill, bore, and tap holes.Covers computer numerical control (CNC) lathe and mill operations, control functions, the letter address system, the program format, and machine setup. G & M codes, control functions, the letter address system, and math issues related to CNC are included.
Syllabus for Materials Science course that also uses:
Material Science FlexBook: https://flexbooks.ck12.org/user:bw9ycmlzdgvabglubmjlbnrvbi5lzhu./cbook/material-science/
NSF Materials Science and Technology module: http://matse1.matse.illinois.edu/metals/intro.html
NDT Resource Center: https://www.nde-ed.org/EducationResources/CommunityCollege/Materials/cc_mat_index.htm
Upon successful completion of this course, students will be able to:
Identify property classifications of various materials to determine their applicability for use.
Apply knowledge of subatomic, atomic, molecular, crystal and grain structures to materials science.
Identify materials commonly used in the manufacturing environment and safety/health issues.
Understand heat treating of ferrous metals and determine hardness.
Read and understand Safety Data Sheets (SDS).
Based on the workbook Mathematics for Manufacturing by Ray Prendergast and Stacey Toscas, 2000. This material was based in part on work supported by the National Science Foundation’s Advanced Technological Education program under grant number DUE-9850327.
Editable MSWord docx: https://drive.google.com/open?id=17ruoRN9jrgP-xbkBwtiHVKP1q7jRIxnT
Answer keys: https://www.oercommons.org/courses/math-for-manufacturing-student-workbook-pre-test-answers
Answers to the pre-test for Math for Manufacturing: Student Workbook, by Ray Prendergast.
Metals 1 and 2 CORE provides students with an understanding of manufacturing processes and systems common to careers in machine tool and materials forming industries. Topics include the interpretation and layout of machined and formed-part prints; the cutting, shaping, fastening, and finishing of machine tools; and casting, forging, molding, cold forming, and shearing processes.
The Open Source movement revolutionized the way computer systems were developed and how companies made their businesses. Its philosophy requires that all source code should be freely shared, so that as many people as possible can use, change, learn, and improve upon it. In recent years the increasing availability and low costs of electronic components, processors and 3D printers meant that an open model of development has taken root also in the world of hardware, including the development of scientific lab equipment. The implications for research can hardly be overstated: Open Labware designs are almost always cheaper than closed source ones, allow for distributed development and, critically, customization by the end user, the lab scientist. PLOS welcomes submissions in this field.
Designed products surround us all and range from bus tickets to buildings. This unit focuses firmly on usability and the increasingly important phenomenon of people-centred design. It aims to inform consumers of design (i.e., all of us) about this crucial characteristic of design. The unit is derived from the Open University course T211 on Design and Designing, but as well as stimulating interest in areas of concern for producers of design it might also provide an introduction to engineering, manufacturing and business studies.