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 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.
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 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.)
Introduces the field of computer science and programming for students interested in careers in related fields. Covers digital logic, binary and hexadecimal encoding of data, computer organization, operating systems, algorithms, control structures, and an overview of programming languages and pseudo-code. Computing's impact on culture and society is a recurring theme throughout this course.
Moodle shell with example syllabus and links to Earth Rocks! videos produced by Katryn Wiese, Earth Sciences Department, City College of San Francisco.
Course description: introductory lab science course that examines the four major categories of oceanographic study: geological, physical, chemical and biological. Emphasizes the geological and geophysical aspects of the sea floor; physical and chemical properties of sea water, waves, tides, ocean circulation and currents; marine ecosystems; and ocean utilization.
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.
COURSE OBJECTIVES: At the completion of WR122, successful students should be able to:
Analyze the rhetorical needs (the needs of their audience in relationship to the assignment) for academically-oriented writing assignments.
Apply appropriate levels of critical thinking strategies (knowledge, comprehension, application, analysis, synthesis, evaluation) in their written assignments, with a focus on factual, analytical, and evaluative writing.
Implement appropriate rhetorical elements and organization (introduction, thesis, development and support, definition, narration, comparison, conclusion, etc.) in their written assignments.
Locate, evaluate, and integrate high-quality information and opinion appropriate for college-level informational, analytical and evaluative assignments.
Craft sentences and paragraphs that communicate their ideas clearly and effectively using words, sentence patterns, and writing conventions at a college level to make their writing clear, credible, and precise.
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 is an introductory course meant to both expand your knowledge of good essay form and your confidence in your ability to create concise, clear, and cohesive college essays. We’ll look at several different forms of essays and destroy many great pieces of writing in order to learn how the heck we can do that stuff ourselves.
COURSE OBJECTIVES: At the completion of WR121, successful students should be able to:
Analyze the rhetorical needs (the needs of their audience in relationship to the assignment) for academically-oriented writing assignments.
Apply appropriate levels of critical thinking strategies (knowledge, comprehension, application, analysis, synthesis, evaluation) in their written assignments, with a focus on factual, analytical, and evaluative writing.
Implement appropriate rhetorical elements and organization (introduction, thesis, development and support, definition, narration, comparison, conclusion, etc.) in their written assignments.
Locate, evaluate, and integrate high-quality information and opinion appropriate for college-level informational, analytical and evaluative assignments.
Craft sentences and paragraphs that communicate their ideas clearly and effectively using words, sentence patterns, and writing conventions at a college level to make their writing clear, credible, and precise.