Radiation Safety (NDT 130) is the first in a series of Industrial Radiographic Testing classes taught at Linn Benton Community College (LBCC) in Albany, Oregon. 40 hours of Radiation Safety training is required of any individual working with x-ray and Gamma radiation sources in industrial radiographic testing, including industrial radiographic inspection students. NDT 130 is part of LBCC’s two-year Associate of Applied Science program in Non-Destructive Testing (NDT). The purpose of this OER is to provide students with a comprehensive textbook aligned with the NDT 130 course as taught at LBCC. NDT 130 is taught in accordance with ASNT, SNT TC-1A recommended practice and topical outline following ANSI/ASNT CP-105 2016 guidelines (page 63) for Basic Radiographic Physics Course and Appendix A (pages 113-114) for Radiation Safety topical outline.
This is a short video introduction for technical writing instructors on the iFixit technical writing program. The video discusses how the program works, what the students produce, and why iFixit runs the program. Relevant to WR227 and other technical writing-adjacent courses.
A NEWER VERSION OF THIS RESOURCE IS AVAILABLE AT: https://libarchive.linnbenton.edu/concern/open_educational_resources/0k225b47g?locale=en
Los siguientes materiales han sido creados para usarlos en cursos de hablantes del español que aprendieron el idioma escuchándolo en casa (Heritage speakers). Se trata de un curriculum que está en constante evolución, pero espero que les sea de utilidad para sus clases.
La filosofía detrás de estas unidades es:
- Fortalecer la capacidad de los estudiantes de usar registros formales y distinguirlos de los coloquiales.
- Fortalecer la identidad cultural de los estudiantes
- Entender las diferencias entre el "espanglish" y aprender a "traducirlo" para alguien que no hable inglés.
- Aprender sobre la diversidad lingüística y cultural de los países hispanos.
- Mejorar el conocimiento metalingüístico
An open source e-textbook designed specifically for use in LBCC’s WD4 (Technical Writing for Welders) and all versions of IN4 (Technical Writing for CTE). In this easy-to-navigate textbook, you’ll find all the necessary lessons and handouts for the course.
IN4/WD4 covers the processes and fundamentals of writing field-specific technical documents, including organization and development, audience analysis, diction and style, writing mechanics and standard usage, and the editing, proofing, and revising process required for successful workplace writing. The course focuses on writing workplace documents commonly written by technicians: emails, descriptions, customer intake documents, project closeout documentation, bad news messages, instructions, summaries, accident reports, and employment docs (resumes and cover letters), etc.
This course is intended to provide a foundation in the skills and knowledge you'll need to create, remix, adopt, or update open educational resources (OER). Specifically, by the end of the course you'll be able to:
Apply backward design in order to plan learning goals, assessment, and appropriate scaffolding/support,
Describe the meaning of open educational resources,
Locate open educational resources relevant to course learning outcomes,
Properly attribute works offered under a Creative Commons license,
Identify and create works that are accessible to all students,
Add a Creative Commons license to your own work and share back with your disciplinary community.
Slides, labs, worksheets, instructor notes, and assessment materials from the electrical troubleshooting course at LBCC. This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.
Subject areas include use of layout and fabrication tools, structural steel connections and components, chalk line layout, tank layout, ladder layout, stair layout, ring-flange layout, pipefitting fit-up, fall-protection, and rigging.
This course presents an overview of the Microsoft Windows Operating System (OS), with emphasis on the OS design, configuration, operations, and applications. This course will also cover PowerShell scripting and includes researching, documenting, and presenting a key OS function.
This course is designed as a survey course to familiarize students with computer concepts including software and hardware, software applications, and living online leading towards digital computer literacy. Instruction in this course is provided through demonstration and discussion. Class time will be provided for practicing concepts as well as working through assignments; however, additional time outside of class will be essential to improve skills and complete the assignments.
The following recipes, or games, are intended to be used as reference and study for the college course: Improvisation. This format has been set up to help with ease of quick learning and immediate application. Bon Appétit !
A survey course of discrete mathematics for non-physical science majors. Topics include systems of inequalities, linear programming, probability and probability distributions, and an introduction to descriptive statistics. The course emphasizes problem solving through the use of computer spreadsheets.
An open textbook that gives students an overview of the kinds of writing they’ll be expected to do in upper-level college courses, the workplace, and beyond. The book covers the main elements of technical communication and provides students opportunities to put those elements into practice. It explores how writers locate, create, and deliver technical information. This course and this textbook will provide you instruction and practice in writing documents commonly used in the workplace, such as emails, memos, and letters, as well as employment documents, such as resumes and cover letters. You will also learn about writing descriptions, summaries, instructions, proposals, and various technical reports. You will learn about the importance of audience and purpose in technical communication and how to choose a format and style appropriate for your specific audience and purpose. You will also have an opportunity to work collaboratively with your classmates.
This course is designed to teach students about induction motors and the methods used to control and troubleshoot them.
(Much of this book remixes All About Circuits, which is available under a Design Science License. Linn-Benton Community College received permission from Tony Kupholdt, author of All About Circuits, to distribute this derivative work under a CC BY-SA license.)
Examples and quizzes to reinforce understanding of APA and MLA style and formatting. A quiz bank is available in XHTML or Moodle XML format. These can be imported into a learning management system for students to check their understanding.
Videos, slides, and transcripts for weekly instructional tutorial for WR 227.
The script documents contain links to the slide decks and videos. You can also access the Google Drive version of these materials (Google Folder, Docs, and Slides) here: https://drive.google.com/drive/folders/1HuDv0N59JKhx7D6boIdwUu5p9FoOHw89?usp=drive_link
Created with an LBCC OER Grant 2022/2023.
This openly licensed text, created with students, approaches contemporary families from an equity lens. It asks two questions relevant to the Difference, Power, and Discrimination outcomes at Linn-Benton Community College and Oregon State University: “What do families need?” and “How do society and institutions support or get in the way of families getting what they need?" Original content is licensed under CC BY, except as otherwise noted. More specific information can be found under Licenses and Attributions at the bottom of each section. Print copy: https://www.lulu.com/en/us/shop/elizabeth-pearce/contemporary-families/paperback/product-rjq8mm.html
This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.
This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.
This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.
This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.
This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.
Being able to read and understand, as well as sketch, or even draw a blueprint, is important to the making of accurate parts and complete fabrications.
Blueprints are tools that communicate what needs to be built or made, what materials are needed and what specifications are required. They insure that a design is made with complete accuracy what meets the needs of the customer.
This book is an updated version of the originally authored publication by the Department of Engineering and Drafting Technology Department at Linn-Benton Community College, in Albany Oregon.
This booklet will lay out step by step procedures and how they can aid a crafts-person to build templates to build both simple and complicated fabricated parts. Types of materials that can be used with these templates is a combination of flat sheet and round tube our pipe.In order to be successful in the use of this booklet you need to have a good understanding of basic blueprint reading skills, industrial math skill and also basic geometry. Couple this with welding and fabrication skills you can produce a wide variety of fabrications and weldments. This booklet will start off with simple flat patterns and work in to more complex templates for pipe.
This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.
This course provides an introduction into electrical troubleshooting theory in troubleshooting common electrical problems including: low voltage, high voltage, unwanted resistance, open circuits, high resistance shorts-to-ground, and current and voltage unbalance. Efficiency technology and sustainable practices are covered. An effective troubleshooting methodology is embedded in this course.
The course helps you identify information-bearing events, assess and improve process efficiency, learn to model and analyze business processes, recognize probabilistic components of business processes, and understand the interactions between human behavior and process design. Hands-on, case-based course work allows you to practice some of the principles addressed. You will demonstrate the ability to utilize business computer applications.
Course Outcomes:
Conceptualize business operations as processes.
1. Model simple business processes in terms of the actors and activity sequences involved, the data flowing through those sequences and the dependencies between data and business activities.
2. Recognize probabilistic components of business processes and assign distributions to these components.
3. Characterize business processes in terms of their key operations characteristics; e.g.,productivity, efficiency, service quality, sustainability, time and costs associated with waiting, material volume and service/product customization.
4. Formulate improvements to observed processes and estimate the effects of these improvements with the help of simulation.
5. Identify the role of information systems in business processes; e.g., recognize and specify where information technology can be applied; recognize the role of Enterprise Resource Planning (ERP) systems.
6. Recognize the interdependence of business processes within and across organizational boundaries.
An analysis of the behavior of humans as actors in a variety or organizational contexts and cultures, including group, inter-group, and individual behavior. A cross cultural perspective of organizational behavior is also examined, including the concepts of time-management, work ethic, teamwork, and verbal and non-verbal communication.
Course Outcomes:
1. Describe why managers and entrepreneurs require a knowledge of organizational behavior.
2. Describe characteristics of culture and resulting behavioral tendencies (especially as related to communication, teamwork and leadership, and conflict resolution).
3. Explain the foundations of individual behavior in diverse organizational and cultural settings.
4. Explain the foundations of group behavior in diverse organizational and cultural settings.
5. Discuss inter-group behavior.
6. Identify the rules of organizational design.
7. Describe organizational culture.
This course presents statistical analysis and quantitative tools for applied problem solving and making sound business decisions. Special attention is given to assembling statistical description, sampling, inference, regression, hypothesis testing, forecasting, and decision theory.
Course Outcomes:
1. Understand the meaning and use of statistical terms used in today’s business/economic environment.
2. Collect, organize, summarize, interpret, and present data in tables and charts.
3. Apply descriptive statistical measures to data.
4. Apply probability distributions to model various business and economic processes.
5. Apply statistical inference techniques (including statistical estimation and hypothesis testing) in various business and economic situations.
6. Apply simple linear regression analysis to model various business and economic relationships.
This course focuses on the entrepreneurial phases associated with start-up and management of small business. This course will teach future entrepreneurs and managers to recognize opportunities and to use effective entrepreneurial and small business management practices.
Course Outcomes:
1. List and discuss the characteristics of successful entrepreneurs.
2. Analyze new business opportunities that exist in the marketplace.
3. Evaluate the feasibility of pursuing an opportunity that you’ve recognized.
4. Develop a business plan that includes both conceptual and technical components.
5. Identify and discuss obstacles to entrepreneurial success.
6. Identify the resources and financing necessary to start an entrepreneurial venture.
7. Discuss organizational characteristics and best management practices for start-up companies.
This is a survey course of discrete mathematics for non-physical science majors. Topics include systems of inequalities, linear programming, probability and probability distributions, and an introduction to descriptive statistics. The course emphasizes problem solving through the use of computer spreadsheets.
Course Outcomes:
1. Identify and solve linear programming problems.
2. Write and analyze algebraic models for business and other applications.
3. Solve business and biological applications using probability distributions.
This course in an introduction to project management. The art and science of project management has evolved much over the last 1-2 decades. At this point, 2017, all small, medium and large companies use structured project management methodologies and guidelines to run their internal and external projects. My objective is not to teach you how to become a project manager, that will require many courses and hands-on experience, but to teach you how to become an effective team player on a structured project. and A practice-oriented course with examples, applications and proven techniques that demonstrate systems analysis and design. Actual organization, business settings, and project management software are used to show how systems concepts can apply to many different types of enterprises. Project lifecycle as well as project management software, terminology and concepts are discussed.
Math of Biological/Management/Social Sciences presents intuitive development of the calculus of polynomial, exponential and logarithmic functions, and extrema theory and applications.
Course Outcomes:
1. Apply calculus to solve problems with confidence, persistence, and openness to alternate approaches.
2. Interpret and communicate the concepts of rates of change and derivatives.
3. Connect the graphical behavior, numerical patterns and symbolic representations of function and derivatives.
4. Collaborate to solve calculus problems related to their field of study.
5. Recognize when and how to proficiently apply calculus tools to solve problems in business management, social sciences and and biological sciences.
6. Use a graphing calculator and/or other technology to solve applied problems.
This is the second of two courses in the administration of Microsoft Windows® client/server networked operating systems. The courses CS 240A and CS 240B are laboratory-intensive courses that provide hands-on experience in the planning, installation, and administration of Microsoft Windows® client/server networks. The two courses provide partial preparation for the MCSA® and MCSE® exams.
This is the first of two courses in the administration of Microsoft Windows® client/server networked operating systems. The courses CS 240A and CS 240B are laboratory-intensive courses that provide hands-on experience in the planning, installation, and administration of Microsoft Windows® client/server networks. The two courses provide partial preparation for the MCSA® and MCSE® exams.
This course is designed to train prospective teachers, theatre practitioners and those interested in broadening their skills in the of leading creative drama sessions within the classroom, studio or recreational facility. Class activities are designed to support curriculum development as well as promoting drama as an art and discipline. Through active learning students explore theories and concepts of Creative Drama practices that are used in the development of curriculum-based lesson plans. Creative Drama focuses on process.
The authors received OER funding from LBCC to compile the links in these documents. Instructors of PE 231 choose which resources they want to use in each section. Also included are library resources recommended by the LBCC OER librarian.
This course provides hands-on computer experience in accounting applications, including general ledger, accounts receivable, accounts payable, payroll, and financial statements.
Course Outcomes:
1. Create a new company within the QuickBooks Environment
2. Enter a new account.
3. Demonstrate the ability to properly enter transactions into the A/R, A/P, and other functional areas of the program.
4. Properly run reconciliation reports or bank accounts.
5. Customize and print out financial statements.
This course introduces students to the types of writing they will encounter in business, industry, the academic world and government. It examines the rhetorical nature of writing and asks students to think critically about content, audience, argument and structure. Students will learn how to effectively design documents, present instructions, create proposals and produce technical reports.
Course Outcomes:
1. Analyze the rhetorical needs (the needs of the audience in relationship to the assignment) for college-level evidence-based technical writing assignments.
2. Apply appropriate levels of critical thinking strategies (knowledge, comprehension, application, analysis, synthesis, evaluation) in their written assignments, with an emphasis on technical, evidence-based analysis, reporting, application, and evaluation.
3. Implement appropriate rhetorical elements and organization (executive summary, introduction, thesis, development and research-based support, visual evidence, conclusion, etc.) in their written assignments, with an emphasis on technical evidence-based analysis, reporting, and evaluation assignments.
4. Locate, evaluate, and integrate high-quality information and opinion appropriate for technical evidence-based assignments.
5. Craft sentences and paragraphs that communicate their ideas clearly and effectively using words, sentence patterns, and writing conventions at a high college level to make their writing clear, credible, and precise.
This course introduces the framework of the law as it affects a business, including the origins of the American legal system, how the law operates, and how it is enforced. It covers legal regulation of business, including civil and criminal law, formation of contracts, employment law, environmental regulation, real estate, and consumer rights.
Course Outcomes:
1. Explain the origins of the American legal system.
2. Apply elements of law to specific individual and business scenarios.
3. Understand the requirements for a valid contract and apply those requirements to specific contractual activities.
4. Recognize the interconnectedness of the legal system to business, society, and the environment.
5. Explain the impact of the uniform commercial code, UCC, on the business environment.
This course explores the basics of human resource management including selection and hiring, performance appraisal, compensation, staff planning and job analysis. This course also addresses current HR issues such as job search in a difficult economy, discrimination and harassment, workplace violence and on-the-job drug abuse.
Course Outcomes:
1. Upon completion of the course, students will have working knowledge of the role and human resources in the management of a business organization.
2. Students will understand the basic functions of human resource management and how the HR department interacts with the organization and with the individual employee.
This course will provide you with a general survey of the nature significance of scope of marketing. It emphasizes customers (marketing analysis and strategy); business marketing decisions in promotion, distribution and pricing; and control of marketing programs.
Course Outcomes:
1. Employ the basics of marketing, from identifying audience, market segments and value propositions, to product development and research, marketing strategies and advertising/public relations.
2. Recognize consumer behavior and demand and be able to prepare and execute a marketing solution.
3. Master business marketing tools necessary to execute a marketing plan for a client, including social media.
4. Identify trends and new developments in business and employ soft skills and marketing techniques to adapt to market demands.
5. Compile a portfolio of work that can be shared with colleagues, network connections and future clients and employers.
This course covers topics dealing with financing a business, analysis of financial statements, working capital management, short-and long-term financial planning, budgeting and control.
Course Outcomes:
1. Describe and interpret the four standard financial statements.
2. Describe the importance of current assets and liabilities.
3. Calculate and interpret standard business ratios including: current, inventory turnover, gross margin (profit), ROA, ROE, EPS, and A/R Days.
4. Discuss the difference between markup and margin.
5. Calculate break-even points and units needed to make profit levels.
6. Calculate working capital and estimate minimum cash reserves.
7. Track cash flows for an organization.
Introduction to epidemiology and the use of elementary statistics for students in health-related studies. This course is designed to provide preparatory background for taking subsequent course in epidemiology and health data analysis offered by the Department of Public Health. This course introduces measure of disease frequency, analytical epidemiology, study designs, experimental design, and basic elements of descriptive statistics and inferential statistics.
This course introduces financial accounting techniques, measuring and recording transactions, preparing financial statements, managerial decision making, and planning and control devices, such as budgeting, cost accounting, variance analysis, and break-even analysis. Includes assessment of financial information from managers, lenders, and investors perspective to understand and evaluate business operations. Emphasizes ethical decision-making in the work environment.
Course Outcomes:
1. Gain understanding of the accounting cycle and evaluate business transactions using the accounting equation.
2. Demonstrate the communication of accounting information by the use of commercially available spreadsheet software.
3. Describe the four basic financial statements: Balance Sheet, Income Statement, Statement of Cash Flows, and Statement of Retained Earnings.
4. Describe the need for internal control procedures in an organization, and demonstrate an understanding of ethics in accounting.
5. Use Cost-Profit-Volume analysis to calculate break-even points.
6. Describe the purpose of budgeting in an organization.
7. Calculate cost and efficiency variances using standard cost information.