Using the same method for measuring friction that was used in the …
Using the same method for measuring friction that was used in the previous lesson (Discovering Friction), students design and conduct an experiment to determine if weight added incrementally to an object affects the amount of friction encountered when it slides across a flat surface. After graphing the data from their experiments, students can calculate the coefficients of friction between the object and the surface it moved upon, for both static and kinetic friction.
Oral History Interviews that bring students together with veterans help to foster …
Oral History Interviews that bring students together with veterans help to foster empathy and make history come alive. This lessons offers a step-by-step guide to doing an oral history project with Vietnam War Veterans.
How does infrastructure meet our needs? What happens when we are cut …
How does infrastructure meet our needs? What happens when we are cut off from that supporting infrastructure? As a class, students brainstorm, identify and explore the pathways where their food, water and energy originate, and where wastewater and solid waste go. After creating a diagram that maps a neighborhood's inputs and waste outputs, closed and open system concepts are introduced by imagining the neighborhood enclosed in a giant dome, cut off from its infrastructure systems. Students consider the implications and the importance of sustainable resource and waste management. They learn that resources are interdependent and that recycling wastes into resources is key to sustain a closed system.
After watching video clips from the Harry Potter and the Goblet of …
After watching video clips from the Harry Potter and the Goblet of Fire movie, students explore the use of Punnett squares to predict genetic trait inheritance. The objective of this lesson is to articulate concepts related to genetics through direct immersive interaction based on the theme, The Science Behind Harry Potter. Students' interest is piqued by the use of popular culture in the classroom.
Students examine the divided nature of Raskolnikov's character and personality. Then they …
Students examine the divided nature of Raskolnikov's character and personality. Then they uncover the divided natures of other characters"”a fact that becomes increasingly evident as the novel progresses to go beyond character analysis to comprehend Dostoyevsky's underlying themes. What does the novel imply about human nature? Dostoevsky clearly perceived that people are neither simple nor easily classified; they are often torn in opposite directions by forces both inside of and outside of themselves, sometimes with catastrophic results.
Students will listen to a brief biography, view photographs of the March …
Students will listen to a brief biography, view photographs of the March on Washington, hear a portion of King's "I Have a Dream" speech, and discuss what King's words mean to them.
By closely reading historical documents and attempting to interpret them, students consider …
By closely reading historical documents and attempting to interpret them, students consider how Arthur Miller interpreted the facts of the Salem witch trials and how he successfully dramatized them in his play, "The Crucible." As they explore historical materials, such as the biographies of key players (the accused and the accusers) and transcripts of the Salem Witch trials themselves, students will be guided by aesthetic and dramatic concerns: In what ways do historical events lend themselves (or not) to dramatization? What makes a particular dramatization of history effective and memorable?
This Super Lesson utilizes Project Based Learning to assist learners with designing, …
This Super Lesson utilizes Project Based Learning to assist learners with designing, building, and testing flying contraptions as an introduction to Engineering. The goal of this project is to engage students in collaborative team work and to introduce students to the Science and Engineering Practices: Asking Questions and Defining Problems, Planning and Carrying Out Investigations, and Constructing Explanations and Designing Solutions.
We have offered this Super Lesson as an 8-week elective course, developing and strengthening student interest in applied Math and Science topics. It could also be offered within upper elementary or middle school Science and Math courses. In addition, each week’s topic could be used as a stand alone mini-lesson if time is limited. We have worked to include multiple options within this unit to make it accessible to both general education and special education programs, including recommendations for modifications and extensions.
The purpose of this lesson is to introduce students to the basic …
The purpose of this lesson is to introduce students to the basic elements of our Earth's crust: rocks, soils and minerals. They learn how we categorize rocks, soils and minerals and how they are literally the foundation for our civilization. Students also explore how engineers use rocks, soils and minerals to create the buildings, roads, vehicles, electronics, chemicals, and other objects we use to enhance our lives.
This lesson introduces and describes the main types of erosion (i.e., chemical, …
This lesson introduces and describes the main types of erosion (i.e., chemical, water, wind, glacier and temperature). Students learn examples of each type of erosion and discuss how erosion changes the surface of the Earth. Students also learn why engineers need to be aware of the different types of erosion in order to protect structures and landmarks from the damaging effects erosion can cause. Figure 1 is an excellent illustration of water erosion.
Students learn about the structure of the earth and how an earthquake …
Students learn about the structure of the earth and how an earthquake happens. In one activity, students make a model of the earth including all of its layers. In a teacher-led demonstration, students learn about continental drift. In another activity, students create models demonstrating the different types of faults.
Students learn the two main methods to measure earthquakes, the Richter Scale …
Students learn the two main methods to measure earthquakes, the Richter Scale and the Mercalli Scale. They make a model of a seismograph a measuring device that records an earthquake on a seismogram. Students also investigate which structural designs are most likely to survive an earthquake. And, they illustrate an informational guide to the Mercalli Scale.
Students learn how rooftop gardens help the environment and the lives of …
Students learn how rooftop gardens help the environment and the lives of people, especially in urban areas. They gain an understanding of how plants reduce the urban heat island effect, improve air quality, provide agriculture space, reduce energy consumption and increase the aesthetic quality of cities. This draws upon the science of heat transfer (conduction, convection, radiation, materials, color) and ecology (plants, shade, carbon dioxide, photosynthesis), and the engineering requirements for rooftop gardens. In the associated activity, students apply their scientific knowledge to model and measure the effects of green roofs.
We are naturally curious about the lives (and deaths) of authors, especially …
We are naturally curious about the lives (and deaths) of authors, especially those, such as Edgar Allan Poe and Ambrose Bierce, who have left us with so many intriguing mysteries. But does biographical knowledge add to our understanding of their works? And if so, how do we distinguish between the accurate detail and the rumor; between truth and exaggeration? In this lesson, students become literary sleuths, attempting to separate biographical reality from myth. They also become careful critics, taking a stand on whether extra-literary materials such as biographies and letters should influence the way readers understand a writer's texts.
MAIN AIMS OF THE MODULE: To achieve an understanding and practical experience …
MAIN AIMS OF THE MODULE: To achieve an understanding and practical experience of key principles, methods and theories in the area of educational software. LEARNING OUTCOMES FOR THE MODULE: The module provides opportunities for students to develop and demonstrate knowledge and understanding, qualities, skills and other attributes in the following areas: 1) Obtain understand of major learning principles, theories, and approaches 2. Identify key factors of successful educational software design and deployment. 3) Apply theories, principles, and approached into an appropriate design of educational software system. 4) Establish an appreciation of state-of-art developments in the area of educational software design. MAIN TOPICS OF STUDY: The main topics of study considered in light of the above learning outcomes are: Educational Principles Design of educational software such as electronic instruction manuals, serious gaming, VR training, drills, and tutor agents and tutorials Educational software for specific learners such as children, elderly, mentally or physically challenged individuals CEvaluation of education software.
As part of the engineering design process to create testable model heart …
As part of the engineering design process to create testable model heart valves, students learn about the forces at play in the human body to open and close aortic valves. They learn about blood flow forces, elasticity, stress, strain, valve structure and tissue properties, and Young's modulus, including laminar and oscillatory flow, stress vs. strain relationship and how to calculate Young's modulus. They complete some practice problems that use the equations learned in the lesson mathematical functions that relate to the functioning of the human heart. With this understanding, students are ready for the associated activity, during which they research and test materials and incorporate the most suitable to design, build and test their own prototype model heart valves.
Students are briefly introduced to Maxwell's equations and their significance to phenomena …
Students are briefly introduced to Maxwell's equations and their significance to phenomena associated with electricity and magnetism. Basic concepts such as current, electricity and field lines are covered and reinforced. Through multiple topics and activities, students see how electricity and magnetism are interrelated.
The grand challenge for this legacy cycle unit is for students to …
The grand challenge for this legacy cycle unit is for students to design a way to help a recycler separate aluminum from steel scrap metal. In previous lessons, they have looked at how magnetism might be utilized. In this lesson, students think about how they might use magnets and how they might confront the problem of turning the magnetic field off. Through the accompanying activity students explore the nature of an electrically induced magnetic field and its applicability to the needed magnet.
This lesson introduces students to the fundamental concepts of electricity. This is …
This lesson introduces students to the fundamental concepts of electricity. This is accomplished by addressing questions such as "How is electricity generated," and "How is it used in every-day life?" The lesson also includes illustrative examples of circuit diagrams to help explain how electricity flows.
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