This Module—a revision of Who's In Charge? Developing a Comprehensive Behavior Management …
This Module—a revision of Who's In Charge? Developing a Comprehensive Behavior Management System—highlights the importance of establishing a comprehensive classroom behavior management system composed of a statement of purpose, rules, procedures, consequences, and an action plan. It also provides information about how culture, classroom factors, and teacher actions can influence student behavior (est. completion time: 1 hour).
This Module—a revision of You're in Charge! Developing Your Own Comprehensive Behavior …
This Module—a revision of You're in Charge! Developing Your Own Comprehensive Behavior Management Plan—reviews the major components of classroom management (including rules, procedures, and consequences) and guides users through the steps of creating their own comprehensive behavior plan. The module is a companion to Classroom Management (Part 1): Learning the Components of a Comprehensive Behavior Management Plan (est. completion time: 2 hours).
Spend sometime exploring the basic foundations of parent engagment and then learn about …
Spend sometime exploring the basic foundations of parent engagment and then learn about a variety of classroom strategies you can use to engage parents in student learning.
Students use bearing measurements to triangulate and determine objects' locations. Working in …
Students use bearing measurements to triangulate and determine objects' locations. Working in teams of two or three, they must put on their investigative hats as they take bearing measurements to specified landmarks in their classroom (or other rooms in the school) from a "mystery location." With the extension activity, students are challenged with creating their own maps of the classroom or other school location and comparing them with their classmates' efforts.
In this art history video Dr. Beth Harris and Dr. Steven Zucker …
In this art history video Dr. Beth Harris and Dr. Steven Zucker discuss Claus Sluter and Claus de Werve's, "Mourners", Tomb of Philip the Bold, Duke of Burgundy, installed 1410. In the Museum of Fine Arts, Dijon.
Students learn about gear ratios and power by operating toy mechanical cranes …
Students learn about gear ratios and power by operating toy mechanical cranes of differing gear ratios. They attempt to pick up objects with various masses to witness how much power must be applied to the system to oppose the force of gravity. They learn about the concept of gear ratio and practice calculating gear ratios on worksheets, discovering that smaller gear ratios are best for picking objects up quickly, and larger gear ratios make it easier to lift heavy objects.
Students use a small quantity of modeling clay to make boats that …
Students use a small quantity of modeling clay to make boats that float in a tub of water. The object is to build boats that hold as much weight as possible without sinking. In the process of designing and testing their prototype creations, students discover some of the basic principles of boat design, gain first-hand experience with concepts such as buoyancy and density, and experience the steps of the engineering design process.
Hydropower generation is introduced to students as a common purpose and benefit …
Hydropower generation is introduced to students as a common purpose and benefit of constructing dams. Through an introduction to kinetic and potential energy, students come to understand how a dam creates electricity. They also learn the difference between renewable and non-renewable energy.
Students act as engineers contracted by NASA to create water filtration devices …
Students act as engineers contracted by NASA to create water filtration devices that clean visible particulates from teacher-prepared "dirty water." They learn about the worldwide need for potable water and gain appreciation for why water quality is an important issue for people on Earth as well as on the International Space Station. Working in groups, students experience the entire engineering design process, including a read-aloud book about the water cycle; a visiting water engineer presentation; their own online research about filter methods and designs; group brainstorming of designs (using ordinary household materials); filter construction and testing; redesign and retesting; lab book documentation of their notes, research, plans and results; and a summary poster presentation at a mini-engineering fair. Two design planning worksheets, a poster layout suggestion sheet and a grading rubric are provided.
Students are challenged to design a method for separating steel from aluminum …
Students are challenged to design a method for separating steel from aluminum based on magnetic properties as is frequently done in recycling operations. To complicate the challenge, the magnet used to separate the steel must be able to be switched off to allow for the recollection of the steel. Students must ultimately design, test, and present an effective electromagnet.
Students observe and discuss a simple balloon model of an electrostatic precipitator …
Students observe and discuss a simple balloon model of an electrostatic precipitator to better understand how this pollutant recovery method functions in cleaning industrial air pollution.
Students investigate decomposers and the role of decomposers in maintaining the flow …
Students investigate decomposers and the role of decomposers in maintaining the flow of nutrients in an environment. Students also learn how engineers use decomposers to help clean up wastes in a process known as bioremediation. This lesson concludes a series of six lessons in which students use their growing understanding of various environments and the engineering design process, to design and create their own model biodome ecosystems.
Engineers design methods of removing particulate matter from industrial sources to minimize …
Engineers design methods of removing particulate matter from industrial sources to minimize negative effects of air pollution. In this activity, students will undertake a similar engineering challenge as they design and build a filter to remove pepper from an air stream without blocking more than 50% of the air.
Posed with a paradigmatic engineering problem, students consider and explore mathematical algorithms …
Posed with a paradigmatic engineering problem, students consider and explore mathematical algorithms and/or geometric concepts to devise possible solutions. The problem: How should a robotic vacuum move in order to best clean a floor of unknown shape and dimensions? They grapple with what could be a complex problem by brainstorming ideas, presenting the best idea for a solution and analyzing all presented solutions, and then are introduced to an elegant solution. Rather than elaborately calculating the most efficient route and keeping track of which tiles the robot has visited, a random number generator determines which direction the robot will take when it hits a barrier. Students are able to visually confirm how an unfamiliar programming concept (a random number generator) can make for a simple and efficient program that causes an NXT robot (that is suitably equipped) to clean a bare floor. Then students think of other uses for random numbers.
Students learn about a special branch of engineering called bioremediation, which is …
Students learn about a special branch of engineering called bioremediation, which is the use of living organisms to aid in the clean-up of pollutant spills. Students learn all about bioremediation and see examples of its importance. In the associated activity, students conduct an experiment and see bioremediation in action!
The Clearer Thinking website helps people and organizations make better decisions and …
The Clearer Thinking website helps people and organizations make better decisions and think more clearly, just like its name says. It uses fun, interactive games and quizzes based on evidence to help us think more logically.
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