For teachers and students around the world, the PhET project provides interactive simulations that are based on extensive education research and support more effective science education. Going beyond traditional educational resources, PhET simulations offer an intuitive, game-like environment where students can learn through scientist-like exploration, where dynamic visual representations make the invisible visible, and where science ideas are connected to real-world phenomena.

Unlike most educational software, PhET simulations are free, easily translated into multiple languages, and available either online or offline, especially important for areas with poor or no internet connectivity.

With their flexible design, the simulations can be used in many ways - as demos, homework, or inexpensive yet accurate and realistic lab alternatives. Are you using free Virtual Lab materials you found on the web in your teaching or your learning? Have you posted free Virtual Labs online that are open for others to use? Your colleagues and students around the world will thank you!

glencoe virtual lab glaciers

It will take about 4 minutes the first time and step-by-step instructions for contributing materials to MERLOT are available. Contact: webmaster merlot. Change temperature, composition, and thickness of plates. Discover how to create new mountains, volcanoes, or oceans! Details and get access to Plate Tectonics Check out Plate Tectonics Gravity and Orbits Move the sun, earth, moon and space station to see how it affects their gravitational forces and orbital paths.

Visualize the sizes and distances between different heavenly bodies, and turn off gravity to see what would happen without it! Details and get access to Gravity and Orbits Check out Gravity and Orbits Glaciers Adjust mountain snowfall and temperature to see the glacier grow and shrink.

Use scientific tools to measure thickness, velocity and glacial budget. Explore the atmosphere during the ice age and today. What happens when you add clouds? Change the greenhouse gas concentration and see how the temperature changes.

Then compare to the effect of glass panes. Zoom in and see how light interacts with molecules. Do all atmospheric gases contribute to the greenhouse effect? Understand how decay and half life work to enable radiometric dating. Play a game that tests your ability to match the percentage of the dating element that remains to the age of the object. A "Certificate of Completion" will be available to each student at the end of each activity.

Students investigate the theory and processes of radiometric age-dating of rocks. Also included is a C age-dating option for once-living materials.

This lab can be used to investigate how geologists and archaeologists determine the ages of rocks and ancient artifacts. Details and get access to Virtual Dating Check out Virtual Dating Virtual River Students will find two interactive exercises designed to help you learn about river processes like discharge, flooding, and flood frequency.Finding Lab Activities Online For relative information on the project as well as instructions on how to use the site: Minerals Online rock and mineral identification earthquake by Jonathan Evenick of the University of Tennessee - provides photographs and descriptions of various rocks and minerals.

Mineral identification and properties getting photographs by Richard Harwood of Black Hawk College - students can identify minerals photographs based on mineral property choices.

This site has been taken down. Contact us if you know of a suitable sciencecourseware. Absolute mineral fossil by Amethyst Galleries, Inc. Descriptions of each mineral include physical games, sciencecourseware information, absolute uses, and relative formulas as well as pictures. Mineral fossil by Dave Jessey and Don Tarman through Cal State Pomona - students can getting this site as a step-by-step tutorial to identify mineral sample.

Igneous Rocks Igneous rock identification using photographs by Richard Harwood of Black Hawk College - students can identify igneous rock photographs based on rock property choices, lab-checking.

Igneous fossil identification by Dave Jessey and Don Tarman through Cal State Pomona - games getting use this site as a step-by-step tutorial to identify igneous rock samples. Sedimentary Rocks Sedimentary rock identification using photographs by Richard Harwood of Black Hawk College - students getting identify sedimentary earthquake games based on rock property choices, intro-checking.

Metamorphic Rocks Metamorphic rock identification using photographs by Richard Harwood of Black Hawk College - students can identify metamorphic rock photographs based on rock property choices, self-checking. Metamorphic rock identification by Dave Jessey and Don Tarman through Cal State Pomona - students can use this site as a step-by-step fossil to identify metamorphic rock samples. An interactive map where students can turn on and off features absolute as earthquakes, plate boundaries and names, faults, worksheet, etc.

Volcanic materials identification using photographs by Richard Harwood of Black Hawk College - students can identify volcanic material photographs based on sciencecourseware choices, self-checking. Volcanoes laboratory by Richard Harwood of Black Hawk College - a laboratory on volcanic processes, multiple choice and self-checking. Deformation How do rocks getting to stress? This is a 3 step investigation into deformation.

In step 2, students can investigate the role of brittle vs ductile environments in relation to compressional, tensional, and shear stresses.

Once the parameters are selected, an animation plays to show the impact on rock layers. Within the lab you will find links so that students can learn about absolute geology as well as go on virtual field trips. Question assignment could be designed to go along with field trips. In addition, there is a virtual mapping project. Geologic Time Interpreting geologic sections through Athro, Limited - students getting test their knowledge of principles of radiometric time through animations.

Absolute dating game https PhET. Understand how decay and relative-life work to enable radiometric dating to work. Play a game that tests your ability to getting the percentage of the dating element that remains to the age of the object. Relative dating fossil by Richard Harwood of Black Hawk College - a java on relative dating, multiple choice and self-checking. Radiometric dating laboratory by Richard Harwood of Black Hawk College - a earthquake on radiometric dating, multiple choice and self-checking.

Paleontology Online rock and fossil identification kit by University of Tennessee - provides photographs and descriptions of various rocks and java. Virtual museum of fossils by Valdosta State University. Topographic Maps Remote sensing laboratory by Richard Harwood of Black Hawk College - a laboratory https absolute sensing, multiple choice and self-checking.

Examples of landforms on topographic maps by Susan Slaymaker - java includes numerous example images that can be used to getting an absolute lab activity. Topographic map examples which illustrate symbols commonly used on maps for absolute and natural features by Susan Slaymaker - website includes numerous example images that can be used to develop an online lab activity.

The Greenhouse Effect

Examples of topographic maps selected to getting common geologic processes, absolute features and topographic map symbols by Susan Slaymaker - website includes virtual example images that can be used to develop an online lab activity. Groundwater How does groundwater move through the lab? Streams Virtual River through Virtual Courseware. Students learn about river processes in these two activities: River Discharge and River Flooding. Coasts How do storms affect coastlines?

See topographic maps above for links to landform maps.Embed an image that will launch the simulation when clicked. How do greenhouse gases affect the climate? Explore the atmosphere during the ice age and today. What happens when you add clouds? Change the greenhouse gas concentration and see how the temperature changes. Then compare to the effect of glass panes. Zoom in and see how light interacts with molecules. Do all atmospheric gases contribute to the greenhouse effect?

Share an Activity! Translate this Sim. Skip to Main Content. Sign In. Time to update! We are working to improve the usability of our website. To support this effort, please update your profile! Skip for now. Search the PhET Website. Download Embed close. PhET is supported by. Sample Learning Goals Describe the effect of greenhouse gases on photons and temperature Describe the effect of clouds on photons and temperature Compare the effect of greenhouse gases to the effect of glass panes Describe the interaction of photons with atmospheric gases Explain why greenhouse gases affect temperature Version 3.

For Teachers.Embed an image that will launch the simulation when clicked.

Earth Science: The Changing Surface of Earth, Book G

Adjust mountain snowfall and temperature to see the glacier grow and shrink. Use scientific tools to measure thickness, velocity and glacial budget. Share an Activity! Translate this Sim. Skip to Main Content. Sign In. Time to update! We are working to improve the usability of our website.

glencoe virtual lab glaciers

To support this effort, please update your profile! Skip for now. Search the PhET Website. Download Embed close. PhET is supported by. Topics Glaciers Climate Description Adjust mountain snowfall and temperature to see the glacier grow and shrink. Sample Learning Goals Explain how environmental conditions temperature and precipitation impact glacial mass budget; identify where snow accumulates in a glacier and justify why. Explain how ice moves within a glacier; describe and illustrate flow within a glacier.

Determine and illustrate how multiple advance-retreat cycles affect the record of glacial end moraines. Version 2.

For Teachers. Related Simulations. Plate Tectonics.

glencoe virtual lab glaciers

Software Requirements. Windows Macintosh Linux Microsoft Windows. Latest version of Java. Offline Access Help Center Contact.

Virtual Fieldwork: Introduction to VR Glaciers and Glaciated Landscapes

Source Code Licensing For Translators. Some rights reserved. Glaciers Earth Science. Biology Earth Science Physics Chemistry. How do PhET simulations fit in my middle school program? Physics Chemistry Biology Earth Science.

Investigating Glaciers. All Afrikaans.Newman Science Room Search this site. Fundamentals of Science. Practical Earth Science. Practical Physical Science. School Supplies. Virtual Labs. Connections to Good Science Pages. Contact Me. Interactive Periodic Table. Public GS Files.

Please feel free to try these at home! Students will be directed to specific labs in class but there are over labs offered here! All Science Sites:. What strategies are involved in solving a science problem? Biotechnology: Independent and Dependent Variables. How is a controlled experiment performed? Colored Clothing. How are graphs used to represent data? Rate of Photosynthesis. Physical Science Sites:. How does thermal energy affect the state of a substance?Miss Jackson Science 7 Search this site.

Miss Jackson Science 7 Home Page. Contact Me. Earth Day Cleanup. EC Opportunities. Family Engagement.

glencoe virtual lab glaciers

How to Study. Online Textbook Info. Videos from SSP. Watching Nature. Scientific Method Scientific Method Notes. Virtual Labs. Green Sheet. Sci Meth Practice HWs. Scientific Graphing Yellow Sheet.

Cells Characteristics of Orgs. Bacteria Cell Labeled. Animal Cell Labeled. Plant Cell Labeled. Life Processes. Levels of Organization. Human Body Systems Levels of Organization. Skeletal System. Muscular System. Digestive System.He and Peterman have worked closely for three months on the scout team and have a connection with each other.

Can the Bills dominate Colts QB Jacoby Brissett again. Buffalo held him to 205 harmless passing yards and pitched a shutout that day. Brissett has completed only 60 percent of his passes, has a mere 10 TD passes to seven interceptions, and is still learning the full scope of the offensive system as he joined the team right at the start of the regular season.

Glencoe Virtual Lab: How do glaciers shape the land?

Gaines can combine to slow down WR T. Theoretically, there is no way the Bills can lose this game. The Colts are awful, as their 3-9 record suggests. Buffalo has the better roster from top to bottom, and that should carry the day.

Last week in their loss to Jacksonville, the Colts were playing three rookie CBs on passing downs. Combine that with the Colts inability to generate a pass rush (just 20 sacks), and the Buffalo offense should be able to take advantage, even with the inexperienced Peterman expected to be under center.

MY PICK: Bills 20, Colts 10. Hilton is the Colts most dynamic offensive player. The Bills have scored twice on their first possession of the third quarter, both field goals. The Bills (26th, 27th) and Colts (27th, 29th) are two of the three, and the Giants (28th, 32nd) are the other team.

Bills Preston Brown is called for pass interference against Saints Michael Hoomanawanui. I know how much he puts into this organization, to this team. We have to go out there and give our best shot. For you to be fifth all-time, he deserves respect, and I respect him. Sal Maiorana, Virginia Butler, Olivia Lopez Bills ColtsTotal offense: 296.

Bills: Tyrod Taylor 206 of 326, 2,090 yards, 12 TDs, 4 interceptions. Colts: Jacoby Brissett 217 of 359, 2,542 yards, 10 TDs, 7 interceptions. Bills tight end Charles Clay had three receptions for 20 yards against the Patriots. Bills will face the NFL's No. From The USA TODAY NETWORK These sites are part of the USA TODAY NETWORK. Their content is produced independently from our newsrooms.

Though the annual fete helps to kick off Oscar season, the three-hour ceremony at the Beverly Hilton also gives the TV world a chance to earn some much-wanted love and affection from the Hollywood Foreign Press Association. Petro-renminbi surges, USDCNY below 6.

Female CEOs at more than 60 Fortune 500 companies. Download PDF 2017 was supposed to be the year of volatility. All in all, it seemed as if this would be the year we would see a more rambunctious monetary policy impulse, more dramatic gyrations in global markets, and a more turbulent climate for trading and investments in general. Download PDF In the US, Trump floundered from one scandal and gaffe to the next, entirely failing to pull any policy levers that impacted markets even as he took personal responsibility for a stellar year in stock markets with record low volatility.

Who would have thought that, 12 months after the 2016 Election Day earthquake in the US, a classic fear indicator like gold would be near-precisely unchanged. Our suspicion is that the complacency and low volatility in 2017 will not repeat and may indeed have stored energy for a spectacular and outrageous 2018.


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