A student manual developed by the Utah State Board of Education, in cooperation with the Unified Police of Greater Salt Lake

This unit covers the processes of photosynthesis, extinction, biomimicry and bioremediation. In the first lesson on photosynthesis, students learn how engineers use the natural process of photosynthesis as an exemplary model of a complex yet efficient process for converting solar energy to chemical energy or distributing water throughout a system. In the next lesson on species extinction, students learn that it is happening at an alarming rate. Students discover that the destruction of habitat is the main reason many species are threatened and how engineers are trying to stop this habitat destruction. The third lesson introduces students to the idea of biomimicry or looking to nature for engineering ideas. And, in the fourth and final lesson, students learn about a specialty branch of engineering called bioremediation the use of living organisms to aid in the clean up of pollutant spills.

The Lost in the Amazon curricular unit is a series of minds-on and hands-on engineering activities based on an adventure scenario set in the Amazon rainforest in Brazil. Students imagine themselves to be a team of EnviroTech engineers returning to the U.S. from a conference in Brasilia, Brazil. When their plane crashes deep in the Amazon forest, they work in groups to overcome various obstacles in their quest to survive and reach the nearest city as quickly and safely as possible. Motivated by this adventurous theme, students discover, learn and apply the following: 1) classification of plants and insects; 2) general categorizing skills; 3) process skills: problem solving and critical thinking; 4) scientific testing and experimentation; 5) materials properties.

Students are given an engineering challenge: A nearby hospital has just installed a new magnetic resonance imaging facility that has the capacity to make 3D images of the brain and other body parts by exposing patients to a strong magnetic field. The hospital wishes for its entire staff to have a clear understanding of the risks involved in working near a strong magnetic field and a basic understanding of why those risks occur. Your task is to develop a presentation or pamphlet explaining the risks, the physics behind those risks, and the safety precautions to be taken by all staff members. This 10-lesson/4-activity unit was designed to provide hands-on activities to teach end-of-year electricity and magnetism topics to a first-year accelerated or AP physics class. Students learn about and then apply the following science concepts to solve the challenge: magnetic force, magnetic moments and torque, the Biot-Savart law, Ampere's law and Faraday's law. This module is built around the Legacy Cycle, a format that incorporates findings from educational research on how people best learn.

The marine environment is unique and because little light penetrates under water, technologies that use sound are required to gather information. The seafloor is characterized using underwater sound and acoustical systems. Current technological innovations enable scientists to further understand and apply information about animal locations and habitat. Remote sensing and exploration with underwater vehicles enables researchers to map and understand the sea floor. Similar technologies also aid in animal tracking, a method used within science and commercial industries. Through inquiry-based learning techniques, students learn the importance of habitat mapping and animal tracking.

Examining the history of the Middle East from the Ottoman Empire through to the present. Enhance lessons with these resources.

The Middle School Chemistry Project from the American Chemical Society (ACS). What happens when solids, liquids, and gases are heated and cooled? Why is one substance more or less dense than another? What causes certain substances to dissolve in water? What happens when a chemical reaction takes place? These questions and many more are explored in Middle School Chemistry, a resource of guided, inquiry-based lesson plans that covers basic chemistry concepts along with the process of scientific investigation.

The Middle School Chemistry curriculum helps students: Ask scientific questions and investigate them; Design and conduct experiments; Understand their observations on the molecular level; Record and communicate results.

This free curriculum includes for teachers: Comprehensive 5-E lesson plans; Detailed procedures for activities; Science background for teachers; Molecular model illustrations and animations; Student activity sheets and student reading; Test bank of questions and answers for each chapter.

Through three lessons and their four associated activities, students are introduced to concepts related to mixtures and solutions. Students consider how mixtures and solutions and atoms and molecules can influence new technologies developed by engineers. To begin, students explore the fundamentals of atoms and their structures. The building blocks of matter (protons, electrons, neutrons) are covered in detail. The next lesson examines the properties of elements and the periodic table one method of organization for the elements. The concepts of physical and chemical properties are also reviewed. Finally, the last lesson introduces the properties of mixtures and solutions. A comparison of different mixtures and solutions, their properties and their separation qualities are explored.

MIT offers an exhaustive collection of materials covering Latin American culture and politics from 1808 through the present and is accompanied with homework/exam possibilities. Issues covered in lecture notes and readings include Latin America's relationship to the global economy and the United States, its dictatorships and democracies, cultural identity, and revolution.

This DRAFT document was created by Ohio educators who teach the Modern World History course prior to closures from COVID 19.

(Nota: Esta es una traducción de un recurso educativo abierto creado por el Departamento de Educación del Estado de Nueva York (NYSED) como parte del proyecto "EngageNY" en 2013. Aunque el recurso real fue traducido por personas, la siguiente descripción se tradujo del inglés original usando Google Translate para ayudar a los usuarios potenciales a decidir si se adapta a sus necesidades y puede contener errores gramaticales o lingüísticos. La descripción original en inglés también se proporciona a continuación.)

Para ayudar a los educadores con la implementación del Core Common Core, el Departamento de Educación del Estado de Nueva York proporciona módulos curriculares en las artes del lenguaje y las matemáticas del idioma inglés P-12 que las escuelas y los distritos pueden adoptar o adaptarse para fines locales. El plan de estudios de matemática de año completo del año 7 está disponible en los enlaces del módulo.

Encuentre el resto de los recursos Engageny ELA en https://archive.org/details/engageny-ela-archive.

English Description:
In order to assist educators with the implementation of the Common Core, the New York State Education Department provides curricular modules in P-12 English Language Arts and Mathematics that schools and districts can adopt or adapt for local purposes. The full year of Grade 7 Mathematics curriculum is available from the module links.

Find the rest of the EngageNY ELA resources at https://archive.org/details/engageny-ela-archive .

(Nota: Esta es una traducción de un recurso educativo abierto creado por el Departamento de Educación del Estado de Nueva York (NYSED) como parte del proyecto "EngageNY" en 2013. Aunque el recurso real fue traducido por personas, la siguiente descripción se tradujo del inglés original usando Google Translate para ayudar a los usuarios potenciales a decidir si se adapta a sus necesidades y puede contener errores gramaticales o lingüísticos. La descripción original en inglés también se proporciona a continuación.)

Para ayudar a los educadores con la implementación del Core Common Core, el Departamento de Educación del Estado de Nueva York proporciona módulos curriculares en las artes del lenguaje y las matemáticas del idioma inglés P-12 que las escuelas y los distritos pueden adoptar o adaptarse para fines locales. El plan de estudios de matemática de año completo del año 7 está disponible en los enlaces del módulo.

Encuentre el resto de los recursos Engageny ELA en https://archive.org/details/engageny-ela-archive.

English Description:
In order to assist educators with the implementation of the Common Core, the New York State Education Department provides curricular modules in P-12 English Language Arts and Mathematics that schools and districts can adopt or adapt for local purposes. The full year of Grade 7 Mathematics curriculum is available from the module links.

Find the rest of the EngageNY ELA resources at https://archive.org/details/engageny-ela-archive .

(Nota: Esta es una traducción de un recurso educativo abierto creado por el Departamento de Educación del Estado de Nueva York (NYSED) como parte del proyecto "EngageNY" en 2013. Aunque el recurso real fue traducido por personas, la siguiente descripción se tradujo del inglés original usando Google Translate para ayudar a los usuarios potenciales a decidir si se adapta a sus necesidades y puede contener errores gramaticales o lingüísticos. La descripción original en inglés también se proporciona a continuación.)

Para ayudar a los educadores con la implementación del Core Common Core, el Departamento de Educación del Estado de Nueva York proporciona módulos curriculares en las artes del lenguaje y las matemáticas del idioma inglés P-12 que las escuelas y los distritos pueden adoptar o adaptarse para fines locales. El plan de estudios de matemática de año completo del año 7 está disponible en los enlaces del módulo.

Encuentre el resto de los recursos Engageny ELA en https://archive.org/details/engageny-ela-archive.

English Description:
In order to assist educators with the implementation of the Common Core, the New York State Education Department provides curricular modules in P-12 English Language Arts and Mathematics that schools and districts can adopt or adapt for local purposes. The full year of Grade 7 Mathematics curriculum is available from the module links.

Find the rest of the EngageNY ELA resources at https://archive.org/details/engageny-ela-archive .

Through two lessons and four activities, students learn about nanotechnology, its extreme smallness, and its vast and growing applications in our world. Embedded within the unit is a broader introduction to the field of material science and engineering and its vital role in nanotechnology advancement. Engaging mini-lab activities on ferrofluids, quantum dots and gold nanoparticles introduce students to specific fields within nanoscience and help them understand key concepts as the basis for thinking about engineering and everyday applications that use next-generation technology nanotechnology.

These wonderful virtual field trips allow students to explore a coastal rain forest or the coral reefs in the Dominican Republic, and so much more.

This MIT course on network and computer security covers topics such as security in multi-user distributed systems, cryptography, authentication, intrusion detection, and many other security topics.

Through this unit, students act as engineers who are given the challenge to design laparoscopic surgical tools. After learning about human anatomy and physiology of the abdominopelvic cavity, especially as it applies to laparoscopic surgery, students learn about the mechanics of elastic solids, which is the most basic level of material behavior. Then, they explore the world of fluids and learn how fluids react to forces. Next, they combine their understanding of the mechanics of solids and fluids to understand viscoelastic materials, such as those found in the human body. Finally, they learn about tissue mechanics, including how collagen, elastin and proteoglycans give body tissues their unique characteristics. In the culminating hands-on activity, student teams design their own prototypes of laparoscopic surgical robots remotely controlled, camera-toting devices that must fit through small incisions, inspect organs and tissue for disease, obtain biopsies, and monitor via ongoing wireless image-taking. They use a (homemade) synthetic abdominal cavity simulator to test and iterate the prototype devices.

The main objective of this course is to explore and critique the role of an open pedagogy in education. Participants will develop an understanding of the concept of open and explore its application in, primarily, the context of educational environments as well as use and assess emerging learning technologies and social media. Participants will also learn about a variety of other initiatives and projects employing an open pedagogy, learn how to both identify and create open educational resources and develop a familiarity with the legal and policy considerations (e.g. copyright) surrounding the use and creation of open content. Through reading, writing, and sharing these writings, participants will make important contributions to the ongoing and exciting conversation around the future of teaching and learning.

Students learn about the human body's system components, specifically its sensory systems, nervous system and brain, while comparing them to robot system components, such as sensors and computers. The unit's life sciences-to-engineering comparison is accomplished through three lessons and five activities. The important framework of "stimulus-sensor-coordinator-effector-response" is introduced to show how it improves our understanding the cause-effect relationships of both systems. This framework reinforces the theme of the human body as a system from the perspective of an engineer. This unit is the second of a series, intended to follow the Humans Are Like Robots unit.