Home - UnCollege. How to Succeed in a Massive Online Open Course (MOOC) by Apostolos Koutropoulos & Rebecca J. Hogue. “MOOCs provide a new methodology and modality for teaching and learning. This newness does pose some problems for learners, but also provides for exciting new possibilities. MOOCs require learners to be more proactive in their education and in building their personal learning networks (PLNs). Everyone can be successful in a MOOC, provided that certain steps are taken and strategies devised before, during, and after a MOOC.”
In the past couple of years, massive online open courses (MOOCs) have become a trend among many members of the educational online community. This is particularly true of faculty who are interested in open educational resources. The structure and design of each MOOC varies. A learning management system such as Moodle or BlackboardOnline groups such as Yahoo or Google groupsAn aggregation of various distributed platforms, such as blogs and Twitter, or using gRSShopper (pronounced grasshopper) Before a MOOC starts Review the website Consider time During a MOOC Participation.
Lessons In Electric Circuits. A free series of textbooks on the subjects of electricity and electronics Copyright (C) 2000-2015, Tony R. Kuphaldt These books and all related files are published under the terms and conditions of the Design Science License. These terms and conditions allow for free copying, distribution, and/or modification of this document by the general public. A copy of the Design Science License is included at the end of each book volume.
For more information about the License, visit As an open and collaboratively developed text, this book is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Access individual volumes, I through VI: Edition numbers reflect major structural changes to a book volume such as the addition of new chapters, the substantial expansion of existing chapters, or a change in markup language (source code formatting). Note to instructors: All volumes! Troubleshooting and Repair of Consumer Electronic Equipment. Including: Test Equipment, Supplies, Parts, Incredibly Handy Widgets(tm), Sources of Information, and Where to Find Broken Stuff Version 2.47 (21-Feb-12) Reproduction of this document in whole or in part is permitted if both of the following conditions are satisfied: This notice is included in its entirety at the beginning.
There is no charge except to cover the costs of copying. Table of Contents Preface Author and Copyright Introduction Getting Into Troubleshooting Comments on How to Learn Repair THE Question: To Repair or Not to Repair If You Decide That You Don't Want to Bother Repairing Something Smoking Around Electronic Equipment General Safety Considerations Basic Troubleshooting Some of My Rules of Troubleshooting Some Quick Tips or Rules of Thumb On-Line Tech-Tips Databases Getting Inside Consumer Electronic Equipment How to Build Obsolescence In Before the Name Goes On Tools, Test Equipment, and Other Stuff Hand Tools Emergency Screw Removal Plastic Screw Thread Repair Workbench and AC Power Adhesives.
Design, Analysis & Circuit Theory. Concise electronics for geeks. Copyright (C) 2010 by Michal Zalewski <lcamtuf@coredump.cx> There are quite a few primers on electronics on the Internet; sadly, almost all of the top hits resort to gross oversimplifications (e.g., hydraulic analogies), or convenient omission, when covering subtle but incredibly important topics such as the real-world behavior of semiconductors. There are some exceptions, to be sure - but they tend to suffer from another malady: regressions into mundane, academic rigor, complete with differential equations and complex number algebra in transient analysis - a trait that is highly unlikely to be accessible, or even useful, to hobbyists.
The physics of conduction [link] As you probably recall from your school years, the dated but still useful Bohr model of the atom explains that atoms consist of a dense center (nucleus) with a variable number of protons and neutrons. The strongly bound and heavy nuclei of stable isotopes do not undergo any structural changes under everyday circumstances. Concise electronics for geeks. Microsoft .NET Gadgeteer. ELECTRICAL/ELECTRONICS TUTORIALS.