In this course, you will learn the principles of genetics with application to the study of biological function at the level of molecules, cells, and multicellular organisms, including humans. We will cover structure and function of genes, chromosomes, and genomes; biological variation resulting from recombination, mutation, and selection; population genetics; and the use of genetic methods to modify genes and genomes and analyze protein function, gene regulation, and inherited disease.
This course, based on the MIT course 7.03 Genetics taken by enrolled MIT students, was organized as a three-part series on edX by MIT’s Department of Biology (Note: The third part of the course is not available yet). It is self-paced and free as long as you enroll in the Audit Track option, which you can select after creating a free account on edX.

The Open Science movement is rapidly changing the scientific landscape. Because exact definitions are often lacking and reforms are constantly evolving, accessible guides to open science are needed. This paper provides an introduction to open science and related reforms in the form of an annotated reading list of seven peer-reviewed articles, following the format of Etz et al. (2018). Written for researchers and students - particularly in psychological science - it highlights and introduces seven topics: understanding open science; open access; open data, materials, and code; reproducible analyses; preregistration and registered reports; replication research; and teaching open science. For each topic, we provide a detailed summary of one particularly informative and actionable article and suggest several further resources. Supporting a broader understanding of open science issues, this overview should enable researchers to engage with, improve, and implement current open, transparent, reproducible, replicable, and cumulative scientific practices.

* a free alternative to expensive Introduction to Cultural Anthropology textbooks

* includes a full textbook and several original videos

* includes 10 "challenges" (assignments)

* a hub of original and found resources for teaching and learning anthropology

* a “connected course” of many faculty around the world sharing instructional materials

* an open course freely available to anyone online

* an emerging producer of original anthropological videos and other digital content

Join Aujalee Moore (ODE), Debra Fitzgibbons (OTAP), Linda Brown (ODE), and Michael Cantino (BVIS) for shared learning about accessibility and instructional materials in Oregon K-12 schools.

This course is a graduate introduction to natural language processing - the study of human language from a computational perspective. It covers syntactic, semantic and discourse processing models, emphasizing machine learning or corpus-based methods and algorithms. It also covers applications of these methods and models in syntactic parsing, information extraction, statistical machine translation, dialogue systems, and summarization. The subject qualifies as an Artificial Intelligence and Applications concentration subject.

Learning and Understanding Mathematical Concepts in the Areas of Water Distribution and Water Treatment

Learning and Understanding Mathematical Concepts in the Areas of Water Distribution and Water Treatment. From College of the Canyons.

Table of Contents
Section 1: Unit Dimensional Analysis
Section 2: Geometric Shapes
Section 3: Density and Specific Gravity
Section 4: Chemical Dosage Analysis
Section 5: Weir Overflow Rate
Section 6: Water Treatment Math Detention Time
Section 7: CT Calculations
Section 8: Pressure, Head Loss, and Flow
Section 9: Well Yield, Specific Capacity, and Drawdown
Section 10: Horsepower and Efficiency
Section 11: Per Capita Water Usage
Section 12: Blending and Diluting
Section 13: Scada and the Use of mA
Section 14: Water Utility Management

In this lesson, students learn about work as defined by physical science and see that work is made easier through the use of simple machines. Already encountering simple machines everyday, students will be alerted to their widespread uses in everyday life. This lesson serves as the starting point for the Simple Machines Unit.

Students engage in hands-on, true-to-life research experiences on air quality topics chosen for personal interest through a unit composed of one lesson and five associated activities. Using a project-based learning approach suitable for secondary science classrooms and low-cost air quality monitors, students gain the background and skills needed to conduct their own air quality research projects. The curriculum provides: 1) an introduction to air quality science, 2) data collection practice, 3) data analysis practice, 4) help planning and conducting a research project and 5) guidance in interpreting data and presenting research in professional poster format. The comprehensive curriculum requires no pre-requisite knowledge of air quality science or engineering. This curriculum takes advantage of low-cost, next-generation, open-source air quality monitors called Pods. These monitors were developed in a mechanical engineering lab at the University of Colorado Boulder and are used for academic research as well as education and outreach. The monitors are made available for use with this curriculum through AQ-IQ Kits that may be rented from the university by teachers. Alternatively, nearly the entire unit, including the student-directed projects, could also be completed without an air quality monitor. For example, students can design research projects that utilize existing air quality data instead of collecting their own, which is highly feasible since much data is publically available. In addition, other low-cost monitors could be used instead of the Pods. Also, the curriculum is intentionally flexible, so that the lesson and its activities can be used individually. See the Other section for details about the Pods and ideas for alternative equipment, usage without air quality monitors, and adjustments to individually teach the lesson and activities.

This undergraduate level Algebra I course covers groups, vector spaces, linear transformations, symmetry groups, bilinear forms, and linear groups.

This undergraduate level course follows Algebra I. Topics include group representations, rings, ideals, fields, polynomial rings, modules, factorization, integers in quadratic number fields, field extensions, and Galois theory.

These course modules are meant to accompany the OpenStax Anatomy & Physiology textbook. Included within each subunit are both Articulate Rise 360 exported raw Web and SCORM 1.2 ZIP files. These files are to be Imported into a Learning Management System. Each module contains text and images from the OpenStax book, original text, openly licensed images from various sources, formative activities, and links to videos on public websites. The modules are free to use as needed. If modification is desired, please contact the author, and I will send you the Rise 360 source file.

These HyperDocs are intended to be used as standalone lab resources for an online Anatomy & Physiology 1 Lab.Within the Study Activities section at the end of each document, the red, bolded, and capitalized words are meant to be replaced at the instructor's discretion.

These course modules are meant to accompany the OpenStax Anatomy & Physiology textbook. Included within each subunit are both Articulate Rise 360 exported raw Web and SCORM 1.2 ZIP files. These files are to be Imported into a Learning Management System. Each module contains text and images from the OpenStax book, original text, openly licensed images from various sources, formative activities, and links to videos on public websites. The modules are free to use as needed. If modification is desired, please contact the author, and I will send you the Rise 360 source file.

These projects are intended to enhance the anatomy and physiology course content. I've designed these so that the group project is coimpatible with a traditional A&P 1 course, and the individual project is compatible with a traditional A&P 2 course. However, both of these projects can work with either course, albeit with minor modifications.

This is a project based lesson focused on behavioral and physical adaptations of animals.