In this activity, students are reminded that the Universe is made up of elements and that the heavier elements are created inside of a star, as they learned in the "Elements and You" activity. They are introduced to the life cycle of a star and to the way in which a star's mass affects its process of fusion and eventual death. Students discuss the physical concept of equilibrium as a balancing of forces and observe an experiment to demonstrate what happens to a soda can when the interior and exterior forces are not in equilibrium. An analogy is made between this experiment and core collapse in stars, to show the importance of maintaining equilibrium in stars. Finally, students participate in an activity which demonstrates how mass is ejected from a collapsed star in a supernova explosion, thereby dispersing heavier elements throughout the Universe. This activity is part of a series that has been designed specifically for use with Girl Scouts, but the activities can be used in other settings. Most of the materials are inexpensive or easily found. It is recommended that a leader with astronomy knowledge lead the activities, or at least be available to answer questions, whenever possible.

In this three-part exercise, students study hand samples and thin sections of important metamorphic rocks and minerals.

Part one - Box of Rocks: Students examine trays of metamorphic rocks and minerals and record their physical properties, composition, and habit. They note chemical and physical similarities and differences and identify the rock samples and minerals they contain.
Part two - Definitions: Define a list of terms relevent to the lab.
Part three - Minerals in Thin Section: Observe minerals in thin section and answer questions about them.

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Short Description:
This textbook emphasizes connections between theory and application, making physics concepts interesting and accessible to students while maintaining the mathematical rigour inherent in the subject. Frequent, strong examples focus on how to approach a problem, how to work with the equations, and how to check and generalize the result.

Word Count: 197484

(Note: This resource's metadata has been created automatically by reformatting and/or combining the information that the author initially provided as part of a bulk import process.)

This resource was created by Brandon Horst in collaboration with Tina Williams as part of the 2019-20 ESU-NDE Digital Age Pedagogy Project. Educators worked with coaches to create Lesson Plans promoting both content area and digital age skills. This Lesson Plan is designed for K-4 Technology/Language Arts.

A fun way for children to practice sight words while adding in physical activity.  

This lesson plan examines the properties of elements and the periodic table. Students learn the basic definition of an element and the 18 elements that build most of the matter in the universe. The periodic table is described as one method of organization for the elements. The concepts of physical and chemical properties are also reviewed.

More than two dozen UC San Diego physicists are working with hundreds of other scientists at CERNŐs Large Hadron Collider near Geneva, searching for a subatomic particle called the ŇHiggs boson.Ó How are they doing it? What have they found thus far? And why is this search considered one of civilizationŐs greatest quests? UC San Diego Professor of Physics Vivek Sharma, who directs the Higgs search for the CMS collaboration, explains what physicists hope to achieve at the worldŐs largest scientific experiment, involving an estimated 10,000 individuals from 60 countries. (57 minutes)

Being able to recognize a problem and design a potential solution is the first step in the development of new and useful products. In this activity, students create devices to get "that pesky itch in the center of your back." Once the idea is thought through, students produce design schematics (sketches). They are given a variety of everyday materials and recyclables, from which they prototype their back-scratching devices.

In this lesson designed to enhance literacy skills, students explore brain injuries called concussions: what they are, how they occur, the challenges in diagnosing them, and ways to protect yourself from them.

In this lesson students perform a line dance to reinforce story telling through movement.

In this three-part exercise, students study hand samples and thin sections of light-colored igneous minerals and related mineral species.

Part one - Box of Rocks: Students examine a tray of minerals and record their physical properties, composition, and habit. They note chemical and physical similarities and differences and why there are several varieties of minerals in each group.
Part two - Definitions: Define a list of terms relevent to the lab.
Part three - Minerals in Thin Section: Observe minerals in thin section and answer questions about them.

(Note: this resource was added to OER Commons as part of a batch upload of over 2,200 records. If you notice an issue with the quality of the metadata, please let us know by using the 'report' button and we will flag it for consideration.)

In this four-part exercise, students look at mafic igneous minerals, learning to distinguish and identify them in hand specimen and thin section.

Part one - Box of Rocks: Students examine a tray of minerals and record their physical properties, composition, and habit. They note chemical and physical similarities and differences and why there are several varieties of minerals in each group.
Part two - Observing Optical Properties: Students learn how to use a microscope to observe thin sections.
Part three - Defining optical microscopy and light ray terms
Part four - Answer questions using thin sections

(Note: this resource was added to OER Commons as part of a batch upload of over 2,200 records. If you notice an issue with the quality of the metadata, please let us know by using the 'report' button and we will flag it for consideration.)

This course package is designed as an introduction to General and Applied Science. It satisfies the learning outcomes for British Columbia ABE Intermediate General and Applied Science, which is considered an equivalent to BC Science 10. This resource includes powerpoints, class notes, and laboratory manuals for each of three three modules: Chemistry, Biology, and Physics. Throughout these modules, students explore the scientific method, take part in peer discussions, try out their problem solving skills in classroom and laboratory settings, and learn required skills and knowledge to prepare them for the Grade 11 level of science. Quizzes and mini-finals are also available to instructors upon request.

 Students will learn about what constitutes various aspects of identity, including gender identity, sexual orientation, and explore how experiences of identity can shift across different cultures. We will discuss why acknowledging gender diversity is important, ways to respect each other, and more. 

While school librarians typically are well exposed to issues surrounding censorship and selection, less attention is paid to the ethics of librarianship and how those play out in the specialized context of school libraries. Attention to the ALA Code of Ethics and the ALA Bill of Rights set the foundation for careful reflection on the role of the school librarian, particularly in relation to the role of libraries in a democratic society.Issues of equity are [inherent] in library service and attention to the dimensions of meaning and implications of the word “equity” is warranted. This module situates equity in the context of educational equity, and the alignment of libraries as gateways to opportunity and education as the pathway to opportunity. School librarians may or may not have opportunities to explore the contexts of “intellectual freedom” in relation to equity.The codification of information literacy in the American Library Association Presidential Committee on Information Literacy Final Report in 1989 paved the way for information literacy to “become the predominant way to frame the educational role of libraries and librarians.” (Seale, 2013, “The Neoliberal Library” in Gregory and Higgins) As such, inquiring into the complexities and nuances of intellectual freedom and equal access to information is essential to understanding the school librarian’s role and responsibilities.Library and school library publications are increasingly recognizing the relevance of social justice to librarianship, as evidenced by a survey of library journals this past year. (example: “Equality vs. Equity” theme, Knowledge Quest, Volume 45, No. 3, January/February, 2017; “Social Justice Symposium” by Erin Hooper in VOYA, June 2017) Recognizing the power of the librarians to not only hold space for critical discourse but to also impact the shape and tenor of that discourse is the first step to fully owning the responsibility that comes with that power.A particularly relevant and useful resource is Information Literacy and Social Justice: Radical Professional Praxis, edited by Lua Gregory and Shana Higgins, Library Juice Press, 2013Learning Objectives:Participants will model, coach, and support "efficient and ethical information-seeking behavior"  (Standard 3: Information & Knowledge 3.1)Participants will support flexible, open access for library services and model and communicate the legal and ethical codes of the profession. (Standard 3: Information & Knowledge 3.2)Participants practice the ethical principles of their profession, advocate for intellectual freedom and privacy, and promote and model digital citizenship and responsibility. (Standard 5: Program Management and Administration 5.2)Participants will understand, model, and share how open education practice brings a transformative shift from a proprietary and industrial education model to a participatory education model. (ISKME: Leadership and Advocacy - Advancing Open Practice) 

This task examines the ways in which the plane can be covered by regular polygons in a very strict arrangement called a regular tessellation. These tessellations are studied here using algebra, which enters the picture via the formula for the measure of the interior angles of a regular polygon (which should therefore be introduced or reviewed before beginning the task). The goal of the task is to use algebra in order to understand which tessellations of the plane with regular polygons are possible.

Within this collection you will find lessons, videos, handouts, and teacher guides you can use in your classroom.  You will also find a brief summary of each resource with the source sited for further exploration, appropriate grade level, approximate lesson length, and learning standards.

6.012 is the header course for the department’s “Devices, Circuits and Systems” concentration. The topics covered include: modeling of microelectronic devices, basic microelectronic circuit analysis and design, physical electronics of semiconductor junction and metal-on-silicon (MOS) devices, relation of electrical behavior to internal physical processes, development of circuit models, and understanding the uses and limitations of various models. The course uses incremental and large-signal techniques to analyze and design bipolar and field effect transistor circuits, with examples chosen from digital circuits, single-ended and differential linear amplifiers, and other integrated circuits.