This activity utilizes a Claim-Support-Question framework that allows students to draw on prior knowledge, investigation, and questioning. Designed to be placed within a Java context of enhancing object-oriented programming classes using interfaceses, students will analyze, implement, and support claims regarding three separate interfaces while moving between analysis and program implementation.

This text was written as a prequel to the APEXCalculus series, a three–volume series on Calculus. This text is not intended to fully prepare students with all of the mathematical knowledge they need to tackle Calculus, rather it is designed to review mathematical concepts that are often stumbling blocks in the Calculus sequence. It starts basic and builds to more complex topics. This text is written so that each section and topic largely stands on its own, making it a good resource for students in Calculus who are struggling with the supporting mathemathics found in Calculus courses. The topics were chosen based on experience; several instructors in the Applied Mathemathics Department at the Virginia Military Institute (VMI) compiled a list of topics that Calculus students commonly struggle with, giving the focus of this text. This allows for a more focused approach; at first glance one of the obvious differences from a standard Pre-Calculus text is its size.

This textbook introduces students to the application methods of control charts to improve quality in health care. The textbook is written to be accessible to any student in the areas of health information management, health care informatics, and health care industrial engineering. Having a basic background in statistics would be beneficial, but such training is not a prerequisite to understanding how to apply the techniques discussed here.  Several How-To sections are included to demonstrate the implementation of the given control charts using software such as Minitab and Excel.  Additionally, samples of a Python code are included and can directly be accessed in a Jupyter Notebook at https://github.com/JeromeNN/Applications-Control-Charts-Quality-Improvement-Health-Care 

This book was created to support Project 677 in APSC 100 in the Faculty of Engineering at Queen’s University during the winter term of 2019, and is being updated and expanded to support Project 725 in Winter 2021. It provides a publicly visible collection of information that will help with this design project. Use of these resources elsewhere under the CC license is encouraged, but not supported. The contents of this book will grow and change over the term. Please fell free to add your comments or questions in any of the sections and I will try to address them.

The resources in this book are not comprehensive and are only intended to provide a starting point to explore design options. In particular, there will be many examples illustrated by single products that are not the only, or even the best solutions for a particular application. You will need to go well beyond the contents of this book to make your independent design decisions.

The models used for building heat transfer are very much simplified for an introduction to the ideas and should be used cautiously. Design of actual building systems should be undertaken in much greater detail. The target here is to use models that don’t require you to learn any new physics.

The secondary reason this book exists is to give me some practice using PressBooks to develop Open Educational Resources (OER). Some of the files that are linked from this book are on Google Drive, and some are on GitHub.

Word Count: 13755

(Note: This resource's metadata has been created automatically as part of a bulk import process by reformatting and/or combining the information that the author initially provided. As a result, there may be errors in formatting.)

The course is designed for students to develop a greater understanding of global processes and interaction between all human societies. The course follows a thematic approach which will highlight the nature of international continuities and changes, their causes and consequences, and comparisons among major societies. The course emphasizes relevant factual knowledge in conjunction with interpretive issues and many types of historical evidence. Beginning with the start of civilization, focusing on the past millennium, the course builds on an understanding of cultural, institutional, and technological precedents that influence developments throughout history. The course begins with the rise of civilizations and extends through the modern world.

This AP world history course was designed based on five themes: Interactions between humans and the environment; development and interaction of cultures; state-building, expansion, and conflict; creation, expansion, and interaction of economic systems; and development and transformation of social structures. The course explores historical events from the 13th century through the 20th century. 

AP World History is designed to develop a greater understanding of global processes and interaction between all human societies. This understanding is advanced through a combination of factual knowledge and analytical skills. The course follows a thematic approach which will highlight the nature of international continuities and changes, their causes and consequences, and comparisons among major societies. The course emphasizes relevant factual knowledge in conjunction with interpretive issues and many types of historical evidence. The course will also focus on learning to write mechanically in the “AP style”. Beginning in earnest around 1250, focusing on the past millennium, the course builds on an understanding of cultural, institutional, and technological precedents that influence developments throughout history. The course begins with the rise of civilizations and extends through the turmoil of the modern world.

The first published account of the theorizing that was involved in the development of John M. Keller’s ARCS model is contained in a 1979 publication entitled Motivation and Instructional Design: A Theoretical Perspective. At that early stage, Keller explains his working definition, “motivation is generally defined as that which accounts for the arousal, direction, and sustenance of behavior” (Keller, 1979, p. 29). The emergence of Keller’s model was heavily influenced by a research into a variety of underlying motivational constructs. The theoretical alignment of the original ARCS model is covered more in-depth in the theoretical alignment section. The ARCS model has an official website. This textbook explores the ARCS model.

Develop a passion for visual communication and learn new skills! In Two-Dimensional Design students of all abilities will master the fundamentals of visual composition, and the various ways artists and designers use visual language. Through the study of the elements and principals of design students will develop technical proficiency in a range of art media and find creative confidence in the expression of visual communication. This course approach fosters creativity through one-one-one instruction during time, written feedback, and group critiques.

Develop a passion for visual communication and learn new skills! In Three-Dimensional Design students of all abilities will master the fundamentals of visual composition, and the various ways artists and designers use visual language. Through the study of the elements and principals of design students will develop technical proficiency in a range of art media and find creative confidence in the expression of visual communication. This course approach fosters creativity through one-one-one instruction during time, written feedback, and group critiques.

The Open for Antiracism (OFAR) Program – co-led by CCCOER and College of the Canyons – emerged as a response to the growing awareness of structural racism in our educational systems and the realization that adoption of open educational resources (OER) and open pedagogy could be transformative at institutions seeking to improve. The program is designed to give participants a workshop experience where they can better understand anti-racist teaching and how the use of OER and open pedagogy can empower them to involve students in the co-creation of an anti-racist classroom. The capstone project involves developing an action plan for incorporating OER and open pedagogy into a course being taught in the spring semester. OFAR participants are invited to remix this template to design and share their projects and plans for moving this work forward. 

Andrea Mulder-Slater (creator of www.KinderArt.com ) designed this lesson to be
used with children ages 5 and older. However, this lesson can be easily adapted to
work with individuals of all ages as a way of identifying and expressing emotions.
Participants will gain an understanding of how much of a role emotion plays in
art-making as they create paintings based on feelings.

Name:  ASSAM,THE LAND OF DIVERSITYDescription: The learners will learn about the state of Assam, located in the north-eastern part of India. Overview: In this content, people will learn about  the state of Assam in brief. This is designed for 9th and 10th standard students as well as for aspirants of various competetive examinations. The following topics will be covered in this content.Assam - An IntroductionAssam -  The PeopleAssam - The Biodiversity  

This contains different assessment with a topic, objective, task design and scoring rubrics.

Our class is part of Arts and Sciences Undergraduate Research Experience (ASURE) at Indiana University Bloomington. This program, which is part of the College of Arts and Sciences, includes a two-semester lab experience where students design and conduct their own authentic research projects. All of the projects described in this eBook were designed and carried out by small groups of students in their first through second year of college as part of their course work in the ASURE Immune Response and Behavior Lab. The ASURE class of 2019-2020 certainly faced some unique challenges. In the spring of 2020, we were abruptly sent home to continue our coursework remotely. This interruption reduced the students’ time to collect data in the lab, but gave them the opportunity to learn R and other data analysis skills. In the fall of 2020, all of the students were able to return to campus and continue work on their projects, though there were several interruptions as students were forced to isolate and/or quarantine. Nevertheless, the students were very dedicated and persisted in their work, which is evident in their final projects.

The goal of this lesson is to introduce students who are interested in human biology and biochemistry to the subtleties of energy metabolism (typically not presented in standard biology and biochemistry textbooks) through the lens of ATP as the primary energy currency of the cell. Avoiding the details of the major pathways of energy production (such as glycolysis, the citric acid cycle, and oxidative phosphorylation), this lesson is focused exclusively on ATP, which is truly the fuel of life. Starting with the discovery and history of ATP, this lesson will walk the students through 8 segments (outlined below) interspersed by 7 in-class challenge questions and activities, to the final step of ATP production by the ATP synthase, an amazing molecular machine. A basic understanding of the components and subcellular organization (e.g. organelles, membranes, etc.) and chemical foundation (e.g. biomolecules, chemical equilibrium, biochemical energetics, etc.) of a eukaryotic cell is a desired prerequisite, but it is not a must. Through interactive in-class activities, this lesson is designed to spark the students’ interest in biochemistry and human biology as a whole, but could serve as an introductory lesson to teaching advanced concepts of metabolism and bioenergetics in high school depending on the local science curriculum. No supplies or materials are needed.

OER Fundamentals are invited to remix this course planning template to design and share their OER project plans, course information and syllabus, and reflection.