The activity shows students how to write an effective email to ask …
The activity shows students how to write an effective email to ask for an informational interview across a variety of real-world situations. Each time, students learn to use a single email to introduce themselves, build trust and show authenticity.Learning outcome: A well-written “cold call” email for an informational interview can open a new door and lead to career opportunities in all kinds of ways.----Special note: you have a sample pack activity that accompanies Danny Rubin's book, Wait, How Do I Write This Email?, a collection of 100+ templates for networking, the job search and LinkedIn.Each book features 40+ additional classroom activities on more in-demand topics, including:Email etiquetteNetworkingInternship/job search emailsResumeLinkedInPhone etiquetteSee the 100+ activities from the Rubin Education online curriculum (covers employability, business promotion and leadership)If you'd like to explore the additional material and learn about pricing, please fill out this short contact form and a Rubin Education learning specialist will follow up with you.
The activity will drive home the powerful idea of “give before you …
The activity will drive home the powerful idea of “give before you get.” It’s also a perfect opportunity to have participants use the internet to research a company they plan to contact for sales purposes.Learning outcome: If participants want people to take an interest in their company, then participants must first show interest in the company they contact.----Special note: you have a sample pack activity that accompanies Danny Rubin's book, Wait, How Do I Write This Email?, a collection of 100+ templates for networking, the job search and LinkedIn.Each book features 40+ additional classroom activities on more in-demand topics, including:Email etiquetteNetworkingInternship/job search emailsResumeLinkedInPhone etiquetteSee the 100+ activities from the Rubin Education online curriculum (covers employability, business promotion and leadership)If you'd like to explore the additional material and learn about pricing, please fill out this short contact form and a Rubin Education learning specialist will follow up with you.
In this activity, students are divided into a group of hormones and …
In this activity, students are divided into a group of hormones and a group of receptors. The hormones have to find their matching receptors, and the pair, once matched, perform a given action. This activity helps students learn about the specificity of hormone-receptor interactions within the endocrine system.
Students learn to apply the principles and concepts associated with energy and …
Students learn to apply the principles and concepts associated with energy and the transfer of energy in an engineering context by designing and making musical instruments. They choose from a variety of provided supplies to make instruments capable of producing three different tones. After completing their designs, students explain the energy transfer mechanism in detail and describe how they could make their instruments better.
This video defines energy, reviews a model of different types of energy …
This video defines energy, reviews a model of different types of energy and presents the four known stable global energy resources. This video is part of the Sustainability Learning Suites, made possible in part by a grant from the National Science Foundation. See 'Learn more about this resource' for Learning Objectives and Activities.
This video takes an in-depth look at the annual energy available on …
This video takes an in-depth look at the annual energy available on earth against the amount of energy used by humans. It uses a graphic, published by Wes Hermann in the journal Energy, to makes clear the different energy fluxes. This video is part of the Sustainability Learning Suites, made possible in part by a grant from the National Science Foundation. See 'Learn more about this resource' for Learning Objectives and Activities.
This video goes through the carbon cycle and describes how using fossil …
This video goes through the carbon cycle and describes how using fossil fuels threatens the foundation of the aquatic global food chain. This video is part of the Sustainability Learning Suites, made possible in part by a grant from the National Science Foundation. See 'Learn more about this resource' for Learning Objectives and Activities.
This video describes in detail the greenhouse effect and how recovery from …
This video describes in detail the greenhouse effect and how recovery from energy from fossile fuels results in green house gases. This video is part of the Sustainability Learning Suites, made possible in part by a grant from the National Science Foundation. See 'Learn more about this resource' for Learning Objectives and Activities.
This video distinguishes between renewable and non-renewable energy resources. It examines the …
This video distinguishes between renewable and non-renewable energy resources. It examines the question, "How long to do we have before we exhaust non-renewable resources?" It also looks at alternatives to non-renewable energy resources. This video is part of the Sustainability Learning Suites, made possible in part by a grant from the National Science Foundation. See 'Learn more about this resource' for Learning Objectives and Activities.
Watch students as they conduct an energy audit on a home and …
Watch students as they conduct an energy audit on a home and gain hands-on experience for a career in the green energy industry, in this video adapted from ATETV.
Demos and activities in this lesson are intended to illustrate the basic …
Demos and activities in this lesson are intended to illustrate the basic concepts of energy science -- work, force, energy, power etc. and the relationships among them. The "lecture" portion of the lesson includes many demonstrations to keep students engaged, yet has high expectations for the students to perform energy related calculations and convert units as required. A homework assignment and quiz are used to reinforce and assess these basic engineering science concepts.
Use this board game to introduce the concepts of energy use in …
Use this board game to introduce the concepts of energy use in our lives and the very real impact that personal choices can have on our energy consumption, energy bills and fuel supply. The game begins as students select cards that define their modes of transportation and home design. The players roll dice and move around the board, landing on "choice" or "situation" blocks and selecting cards that describe consumer choices and real-life events that impact their energy consumption and annual energy bills. As the players pass gasoline stations or energy bill gates, they must pay annual expenses as defined by their original cards, with amounts altered by the choices they've made along the way. Gasoline cards are collected to represent total consumption. Too many gas-guzzling vehicles can result in total depletion of their gasoline supply – at which point everyone must walk or ride the bus. At the end of the game, the players count their remaining dollars to determine the winner. Discussion questions probe the students to interpret what choices they made and which situations they encountered had the most impact on their energy consumption and energy bills. All game board, card and money files are available online free of charge.
Students are introduced to the idea that energy use impacts the environment …
Students are introduced to the idea that energy use impacts the environment and our wallets. They discuss different types of renewable and nonrenewable energy sources, as well as the impacts of energy consumption. Through a series of activities, students understand how they use energy and how it is transformed from one type to another. They learn innovative ways engineers conserve energy and how energy can be conserved in their homes.
Students evaluate various everyday energy conversion devices and draw block flow diagrams …
Students evaluate various everyday energy conversion devices and draw block flow diagrams to show the forms and states of energy into and out of the device. They also identify the forms of energy that are useful and the desired output of the device as well as the forms that are not useful for the intended use of the item. This can be used to lead into the law of conservation of energy and efficiency. The student activity is preceded by a demonstration of a more complicated system to convert chemical energy to heat energy to mechanical energy. Drawing the block energy conversion diagram for this system models the activity that the students then do themselves for other simpler systems.
Students search for clues of energy around them. They use what they …
Students search for clues of energy around them. They use what they find to create their own definition of energy. They also relate their energy clues to the engineering products they encounter every day.
This Lesson provides two different activities that require students to measure energy …
This Lesson provides two different activities that require students to measure energy outputs and inputs to determine the efficiency of conversions and simple systems. One of the activities includes Lego motors and accomplishing work. The other investigates energy for heating water. They learn about by products of energy conversions and how to improve upon efficiency. The teacher can choose to use either of these or both of these. The calculations in the water heating experiment are more complicated than in the Lego motor activity. Thus, the heating activity is suitable for older students, only the Lego motor activity suitable for younger students.
Susan Powers, Jan DeWaters, Nate Barlow, and a number of Clarkson and St. Lawrence University students in the K-12 Project Based Learning Partnership Program
We all know that it takes energy to provide us with the …
We all know that it takes energy to provide us with the basics of shelter: heating, cooling, lighting, electricity, sanitation and cooking. To create energy-efficient housing that is practical for people to use every day requires combining many smaller systems that each perform a function well, and making smart decisions about the sources of power we use. Through five lessons on the topics of heat transfer, circuits, daylighting, electricity from renewable energy sources, and passive solar design, students learn about the science, math and engineering that go into designing energy-efficient components of smart housing that is environmentally friendly. Through numerous design/build/analyze activities, students create a solar water heater, swamp cooler, thermostat, model houses for testing, model greenhouse, and wind and water turbine prototypes. It is best if students are concurrently taking Algebra 1 in order to complete some of the worksheets.
The students participate in many demonstrations during the first day of this …
The students participate in many demonstrations during the first day of this lesson to learn basic concepts related to the forms and states of energy. This knowledge is then applied the second day as they assess various everyday objects to determine what forms of energy are transformed to accomplish the object's intended task. The students use block diagrams to illustrate the form and state of energy flowing into and out of the process.
Demonstrations explain the concepts of energy forms (sound, chemical, radiant [light], electrical, …
Demonstrations explain the concepts of energy forms (sound, chemical, radiant [light], electrical, atomic [nuclear], mechanical, thermal [heat]) and states (potential, kinetic).
In an active way, students discover a few critical facts about how …
In an active way, students discover a few critical facts about how we use energy and how much energy we use. Each student has a "clue," some of which are pertinent energy facts and others are silly statements that are clearly unrelated to the topic. Students mingle and ask each other for clues until they have collected all the facts they need. This provides a more interactive way to communicate energy statistics, compared to a lecture and introduction with board work. The goal is to introduce students to some key terms and issues associated with energy as a necessary prerequisite for the remainder of the unit.
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