Your task as an astronomer is to model the solar system using technology.  You and your crew are just one group that have been asked by NASA to chart the solar system in order to create a simulation model for future astronauts. After you have accomplished this, you will present your model to the Director of NASA. They have given you several requirements for the simulation. Your simulation should include a map of the solar system that shows the appropriate distance, location, size and relation to the sun amongst the eight planets. You and your team can use a variety of options to complete your simulation. These include Google Suite tools (such as Google Slides, Google Docs, Jamboard, or any equivalent tool such as Microsoft Office), Coding resources (Scratch.edu, tynker.edu) or 3D printing software (Tinkercad) to present. Your map should also include a short descriptive paragraph for each planet explaining its distance, location, size, and at least 3 facts about the planet. If creating a video, you will still want to include descriptions for the planets as well as the three facts.  Presentation to “NASA Directors” must answer the question: how does this simulation/model help future scientists?

Experiment with a helium balloon, a hot air balloon, or a rigid sphere filled with different gases. Discover what makes some balloons float and others sink.

How does the blackbody spectrum of the sun compare to visible light? Learn about the blackbody spectrum of the sun, a light bulb, an oven, and the earth. Adjust the temperature to see the wavelength and intensity of the spectrum change. View the color of the peak of the spectral curve.

This is a lesson plan based on the Computer Science standard, 2.12, where students will create a model. The students will visit a website first to see how a digital model looks and then will create their own digital models of the solar system by using Google Jamboard. 

This lesson is part of the Virginia K-12 Computer Science Pipeline which is partly funded through a GO Virginia grant in partnership with Chesapeake Public Schools, Loudoun County Public Schools, and the Loudoun Education Foundation.  During this lesson, students will program a Bee-Bot (or similar robot) to locate fraction models. 

This lesson is part of the Virginia K-12 Computer Science Pipeline which is partly funded through a GO Virginia grant in partnership with Chesapeake Public Schools, Loudoun County Public Schools, and the Loudoun Education Foundation.  During this lesson, students will investigate the effect of water on surfaces as well as on a structural model they create.  

Pump gas molecules to a box and see what happens as you change the volume, add or remove heat, change gravity, and more. Measure the temperature and pressure, and discover how the properties of the gas vary in relation to each other.

In this course, the student will build on and apply what you learned in the introductory macroeconomics course. The student will use the concepts of output, unemployment, inflation, consumption, and investment to study the dynamics of an economy at a more advanced level. As the course progresses, the student will gain a better appreciation for how policy shifts and changes in one sector impact the rest of the macroeconomy (whether the impacts are intended or unintended). The student will also examine the causes of inflation and depression, and discuss various approaches to responding to them. By the end of this course, the student should be able to think critically about the economy and develop your own unique perspective on various issues. Upon successful completion of this course, the student will be able to: Explain the standard theory in macroeconomics at an intermediate level; Explain and use the basic tools of macroeconomic theory, and apply them to help address problems in public policy; Analyze the role of government in allocating scarce resources; Explain how inflation affects entire economic systems; Synthesize the impact of employment and unemployment in a free market economy; Build macroeconomic models to describe changes over time in monetary and fiscal policy; Compare and contrast arguments concerning business, consumers and government, and make good conjectures regarding the possible solutions; Analyze the methods of computing and explaining how much is produced in an economy; Apply basic tools that are used in many fields of economics, including uncertainty, capital and investment, and economic growth. (Economics 202)

International Finance Theory and Policy is built on Steve Suranovic’s belief that to understand the international economy, students need to learn how economic models are applied to real world problems. It is true what they say, that ”economists do it with models.“ That’s because economic models provide insights about the world that are simply not obtainable solely by discussion of the issues.

International Finance Theory and Policy develops a unified model of the international macroeconomy. The text provides detailed descriptions of major macroeconomic variables, covers the interest rate parity and purchasing power parity theories of exchange rate determination, takes an exhaustive look at the pros and cons of trade imbalances and presents the well-known AA-DD model to explore the effects of fiscal and monetary policy under both fixed and flexible exchange rates.

The models are developed, not by employing advanced mathematics, but rather by walking students through a detailed description of how a model’s assumptions influence its conclusions. But more importantly, each model and theory is connected to real world policy issues.

The Finance Text has the following unique features: 1). Begins with an historical overview of the international macroeconomy to provide context for the theory. 2). Concludes with a detailed discussion of the pros and cons of fixed and floating exchange rate systems. 3. Provides an extensive look at the issue of trade imbalances. Readers learn techniques to evaluate whether a country's trade deficit (or surplus) is dangerous, beneficial, or benign. 4). Explains how purchasing power parity is used to make cross country income comparisons. 5). Offers clear detailed explanations of the AA-DD model. 6). Applies the AA-DD model to understand the effects of monetary and fiscal policy on GDP, the exchange rate, and the trade balance.

International Finance: Theory and Policy by Steve Suranovic is intended for a one-semester course in International Finance.

The earth’s atmosphere may seem thick when compared to something like your height—but it’s surprisingly thin when compared to the earth’s radius. Here, you can find out exactly how thin, using strips of plastic to model the correctly scaled thickness of the atmosphere on a globe.

This article describes a number of creative projects that incorporate art and literacy skills into a science unit on biomes and ecosystems.

Created by the Concord Consortium, the Molecular Workbench is "a modeling tool for designing and conducting computational experiments across science." First-time visitors can check out one of the Featured Simulations to get started. The homepage contains a number of curriculum modules which deal with chemical bonding, semiconductors, and diffusion. Visitors can learn how to create their own simulations via the online manual, which is available here as well. The Articles area is quite helpful, as it contains full-text pieces on nanoscience education, quantum chemistry, and a primer on how transistors work. A good way to look over all of the offerings here is to click on the Showcase area. Here visitors can view the Featured simulations, or look through one of five topical sections, which include Biotech and Nanotechnology. Visitors will need to install the free Molecular Workbench software, which is available for Windows, Linux, and Mac.

Video Description:  Have you ever wondered where food comes from? Learn how Dr. Catherine Nakalembe uses NASA satellite data to show the health and location of crops around Our World. Maps created from these data help people become more food secure. You can help, too. Using the GLOBE Observer App, you can help scientists validate satellite data by describing land covering through the Adopt a Pixel program.  Video Length:  5:23.    NASA eClipsTM is a suite of online student-centered, standards-based resources that support instruction by increasing STEM literacy in formal and nonformal settings.  These free digital and downloadable resources inform and engage students through NASA-inspired, real-world connections.NASA eClips Our World videos (grades 3-5) help students understand the differences between science (the natural world) and engineering (the designed world).  These video segments supplement elementary learning objectives not only in science, technology, engineering and mathematics, but also in reading, writing, visual and performing arts. 

Video Description:  What are citizen scientists? Why is their work so important to NASA? Join Dr. Michelle Thaller as she explains how the general public, using scientific protocols, careful observations and accurate measurements, can help NASA make exciting new discoveries. Find out how you can be a citizen scientist today.  Video Length:  4:26.NASA eClipsTM is a suite of online student-centered, standards-based resources that support instruction by increasing STEM literacy in formal and nonformal settings.  These free digital and downloadable resources inform and engage students through NASA-inspired, real-world connections.NASA eClips Real World segments (grades 6-8) connect classroom mathematics to 21st Century careers and innovations.  They are designed for students to develop an appreciation for mathematics through real-world problem solving.

Video Description:  Satellites are expensive to build and expensive to get into space. With all the changes in technology, is there a way to make satellites smaller? Find out just what NASA can pack into a 1U CubeSat, a satellite small enough to fit in your hand.  Video Description:  3:24.NASA eClipsTM is a suite of online student-centered, standards-based resources that support instruction by increasing STEM literacy in formal and nonformal settings.  These free digital and downloadable resources inform and engage students through NASA-inspired, real-world connections.NASA eClips Real World segments (grades 6-8) connect classroom mathematics to 21st Century careers and innovations.  They are designed for students to develop an appreciation for mathematics through real-world problem solving.   

Video Description:  CubeSats are changing the way we collect information. They may be small, but these little satellites are helping us answer big questions. And using a swarm of CubeSats can give us simultaneous measurements without repeatedly sending commands to the satellite to tell it what to do.Video Length:  2:21.NASA eClipsTM is a suite of online student-centered, standards-based resources that support instruction by increasing STEM literacy in formal and nonformal settings.  These free digital and downloadable resources inform and engage students through NASA-inspired, real-world connections.NASA eClips Real World segments (grades 6-8) connect classroom mathematics to 21st Century careers and innovations.  They are designed for students to develop an appreciation for mathematics through real-world problem solving.

Video Description:  Our Earth is a dynamic system with diverse subsystems that interact in complex ways.What are those subsystems and how do they interact?How are these subsystems and the global Earth system changing?What causes these changes?How does NASA monitor these changes?How can Earth system science provide societal benefit?Jessica Taylor, an atmospheric scientist at NASA Langley Research Center, and Dr. Steven Pawson, an Earth scientist from NASA Goddard Space Flight Center, help answer these questions and demonstrate how mathematical modeling helps scientists in their predictions of climate, weather, and natural hazards.  Video Length:  5:02.NASA eClips Real World segments (grades 6-8) connect classroom mathematics to 21st Century careers and innovations.  They are designed for students to develop an appreciation for mathematics through real-world problem solving.

Video Description:  Earth's energy balance is very delicate. Small changes may have a big impact. How might changes in Earth's land and atmosphere impact this delicate balance? How might this knowledge be used to help us take better care of Earth?  Video Length:  2:31.NASA eClipsTM is a suite of online student-centered, standards-based resources that support instruction by increasing STEM literacy in formal and nonformal settings.  These free digital and downloadable resources inform and engage students through NASA-inspired, real-world connections.NASA eClips Real World segments (grades 6-8) connect classroom mathematics to 21st Century careers and innovations.  They are designed for students to develop an appreciation for mathematics through real-world problem solving.

NASA eClips Real World:  Food Security -- Monitoring Crops from SpaceVideo Description:  Discover how NASA's Earth-observing satellites gather data to monitor food growth. Dr. Inbal Becker-Reshef describes how mathematics is used to interpret satellite data and describe vegetation and crop yield. Dr. Hannah Kerner shares how algorithms and models use NASA data to describe and predict food supply and food shortages. This work through NASA Harvest provides tools for farmers and governments to describe and predict food security worldwide. Video Length:  5:25.NASA eClipsTM is a suite of online student-centered, standards-based resources that support instruction by increasing STEM literacy in formal and nonformal settings.  These free digital and downloadable resources inform and engage students through NASA-inspired, real-world connections.NASA eClips Real World segments (grades 6-8) connect classroom mathematics to 21st Century careers and innovations.  They are designed for students to develop an appreciation for mathematics through real-world problem solving.

Video Description:  At NASA everything begins with an idea. Physical models help NASA engineers and technicians test those ideas before building full-scale versions. Learn more about the important role physical modeling, building prototypes and mathematics play in engineering solutions.  Video Length:  3:11.NASA eClipsTM is a suite of online student-centered, standards-based resources that support instruction by increasing STEM literacy in formal and nonformal settings.  These free digital and downloadable resources inform and engage students through NASA-inspired, real-world connections.NASA eClips Real World segments (grades 6-8) connect classroom mathematics to 21st Century careers and innovations.  They are designed for students to develop an appreciation for mathematics through real-world problem solving.