Current Events

  • Kansas Legislator Proposes Bill to Outlaw Sustainability Education
    A bill has been introduced in the Kansas legislature this week that would prohibit the promotion of ...Read more

    x

    Kansas Legislator Proposes Bill to Outlaw Sustainability Education

    A bill has been introduced in the Kansas legislature this week that would prohibit the promotion of sustainability. Here is a link to the one-page bill: http://www.kslegislature.org/li/b2013_14/measures/documents/hb2366_00_0000.pdf. See report on Bloomberg News.
  • Earth's Center Is 1,000 Degrees Hotter Than Previously Thought, Synchrotron X-Ray Experiment Shows
    Scientists have determined the temperature near the Earth’s center to be 6000 degrees Celsius, 1000 ...Read more

    x

    Earth's Center Is 1,000 Degrees Hotter Than Previously Thought, Synchrotron X-Ray Experiment Shows

    Scientists have determined the temperature near the Earth’s center to be 6000 degrees Celsius, 1000 degrees hotter than in a previous experiment run 20 years ago. These measurements confirm geophysical models that the temperature difference between the solid core and the mantle above, must be at least 1500 degrees to explain why the Earth has a magnetic field. For more information about this study, see the press release from the European Synchrotron Radiation Facility.
  • Ocean Volcanic Rocks Contain Samples of Recycled Crust
    Scientists have long believed that lava erupted from certain oceanic volcanoes contains materials fr...Read more

    x

    Ocean Volcanic Rocks Contain Samples of Recycled Crust

    Scientists have long believed that lava erupted from certain oceanic volcanoes contains materials from the early Earth’s crust. But decisive evidence for this phenomenon has proven elusive. New research from a team including Carnegie’s Erik Hauri demonstrates that oceanic volcanic rocks contain samples of recycled crust dating back to the Archean era 2.5 billion years ago. Their work is published in Nature. Oceanic crust sinks into the Earth’s mantle at so-called subduction zones, where two plates come together. Much of what happens to the crust during this journey is unknown. Model-dependent studies for how long subducted material can exist in the mantle are uncertain and evidence of very old crust returning to Earth’s surface via upwellings of magma has not been found until now. For more information about these results, see the press release from the Carnegie Institution.

Space Weather

Space Weather is the term scientists use to describe the ever changing conditions in space. Explosions on the Sun create storms of radiation, fluctuating magnetic fields, and swarms of energetic particles. These phenomena travel outward through the Solar System with the solar wind. Upon arrival at Earth, they interact in complex ways with Earth's magnetic field, creating Earth's radiation belts and the Aurora. Some space weather storms can damage satellites, disable electric power grids, and disrupt cell phone communications systems.
A sinuous glowing band of <a href="/earth/Magnetosphere/aurora.html">aurora</a> (the Aurora Australis or Southern Lights) loops around the <a href="/earth/polar/polar_south.html">southern polar</a> region in the distance as viewed by astronauts onboard the space shuttle on <a href="http://www.nasa.gov/mission_pages/shuttle/shuttlemissions/archives/sts-39.html">STS-039</a>.     <a href="/earth/Magnetosphere/aurora/aurora_colors.html">Aurora are produced</a> when <a href="/physical_science/physics/atom_particle/particle_radiation.html">energetic particles</a> entering the Earth's atmosphere from space interact with <a href="/physical_science/physics/atom_particle/atom.html">atoms</a> and <a href="/earth/geology/molecule.html">molecules</a> in the atmosphere and release energy, emitted as light. <p><small><em>Courtesy of NASA, Astronaut Overmeyer and Dr. Hallinan</em></small></p>The outermost layer of the <a href="/sun/solar_atmosphere.html">Sun's atmosphere</a> is the <a href="/sun/atmosphere/corona.html">corona</a>. The corona is very, very hot - about 1 million degrees! Glowing <a href="/sun/Solar_interior/Sun_layers/Core/plasma_state.html">plasma</a>, which is like magnetized gas, sometimes forms loops in the corona. <a href="/sun/atmosphere/sunspot_magnetism.html">Magnetic fields around sunspots</a> make these loops, called coronal loops. The loops are huge - about 30 Earths would fit across them! A satellite named TRACE took this picture in November 1999.<p><small><em>Image courtesy of NASA/Trace Mission</em></small></p>Sunspots don't look that big when you see them on the Sun (remember NEVER look directly at the Sun), but in fact they can be enormous! This composite image shows just how big sunspots can be, to scale with an image of Earth. Sunspots can be as big, or bigger, than Earth. The <a href="/sun/activity/sunspot_history.html">earliest written record of a sunspot observation</a> was made by Chinese astronomers around 800 B.C.<p><small><em>Image courtesy of Windows to the Universe using images from the Royal Swedish Academy of Sciences (sunspot image) and NASA (Earth image).</em></small></p>The <a href="/earth/Magnetosphere/overview.html">magnetic field of the Earth</a> is surrounded in a region called the magnetosphere, which is much larger than the Earth itself. The magnetosphere prevents most of the particles from the sun, carried in <a href="/sun/solar_wind.html">solar wind</a>, from hitting the Earth.<p><small><em> Image courtesy of Windows to the Universe.</em></small></p>On 21 April, 2010, the Solar Dynamics Observatory captured the launch of a filament from the <a href="/sun/atmosphere/photosphere.html">surface of the Sun</a>. These are the most detailed images of the Sun ever taken. The images show light in the <a href="/physical_science/magnetism/em_ultraviolet.html">ultraviolet</a> part of the <a href="/physical_science/magnetism/em_spectrum.html">electromagnetic spectrum</a>. The Sun is now entering another period of <a href="/sun/solar_activity.html">solar activity</a> after several years of a relatively quiet Sun. Activity on the Sun varies on an <a href="/sun/activity/sunspot_cycle.html">cycle of about 11 years</a>.<p><small><em>Image courtesy of NASA/Solar Dynamics Observatory and AIA Consortium</em></small></p>This is an artist's conception of the Earth and the inner and outer <a href="/glossary/radiation_belts.html">radiation belts</a> that surround it. The Earth's radiation belts are just one part of the system called the <a href="/earth/Magnetosphere/overview.html">magnetosphere</a>. The radiation belts of the Earth are made up of <a href="/physical_science/physics/atom_particle/electron.html">electrons</a>, <a href="/physical_science/physics/atom_particle/proton.html">protons</a> and heavier atomic ions. These particles get trapped in the <a href="/earth/Magnetosphere/earth_magnetic_field.html">magnetic field of the Earth</a>. These belts were <a href="/earth/Magnetosphere/radiation_belts_discovery.html">discovered</a> by James Van Allen in 1958, and so they are known as Van Allen Belts.<p><small><em>Courtesy of Windows to the Universe</em></small></p>

Windows to the Universe Community

News

Opportunities

Upcoming W2U Events
Join Today - Benefits,
No Ads!
Special Offers for Teachers
Member Benefits
Teacher Newsletter
Partnership Opportunities

Explore Space Weather

Introduction to Space Weather

   What are scientists talking about when they say "space weather"? How is it like weather ...Read more

Space Weather Today

Like weather on Earth, space weather is constantly changing. On Earth you can simply look ...Read more

Explore Space Weather

   Space weather begins at the Sun and its ever-expanding atmosphere. From the human perspective, ...Read more

Monitoring and Modeling Space Weather

   How do we know what kind of "weather" we're having in space? Scientists use a network of ...Read more

Physics of Space weather

Subatomic particles zipping around through magnetized plasma - does that sound like physics ...Read more

Multimedia

Access spectacular movies and a very full image gallery to find out more about space weather ...Read more

Activities, Projects & Problems

Hands-on activities, longer term projects, and tricky problems to tickle your brain - we've ...Read more

Glossary

There is a lot of specialized language used in the field of space weather. Here are definitions ...Read more

Center for Integrated Space Weather Modeling

Visit the CISM site to read news and highlights, access presentations and seminars ...Read more

Archive

This is the "old" space weather section in case you're looking for a page that was housed there ...Read more

More about Space Weather


    Global locations of visitors using this page right now
  • Links

Historical Events

5/20 Stephen Jay Gould, an American paleontologist, died on this date in 2002 Details
5/21 Williamina Fleming, a Scottish-American astronomer, died on this date in 1911 Details
5/22 ~7.9 magnitude earthquake hits near Xining, Tsinghai, China in 1927

Full Earth and Space Science    History Calendar (Members only)

Teacher Opportunities

Full Teacher Events Calendar (Educator Members only)

Did you know?

Do you know the name of the famous principle that Werner Heisenberg developed?

Did you know that you can submit your own poem about this month's featured weather image?

 

Earth and Space Science Concept of the Day

Do you know what this word or phrase means?

Riparian
xRiparian : The bank of a river or other body of water; may include the floodplains

Click on the word to find out!

Research Highlights

Scientists Find Signs of “Snowball Earth” Amidst Early Animal Evolution

Geologists have found evidence that sea ice extended to the equator 716.5 million years ago, bringing new precision to a "snowball Earth" event long suspected to have taken place around that time. Funded...Read more

Shop Windows to the Universe

Arches National Park Geology Tour provides an extensive, visually rich description of the geology of Arches, by Deborah Ragland, Ph.D. See our DVD collection.

Windows to the Universe, a project of the National Earth Science Teachers Association, is sponsored in part by the National Science Foundation and NASA, our Founding Partners (the American Geophysical Union and American Geosciences Institute) as well as through Institutional, Contributing, and Affiliate Partners, individual memberships and generous donors. Thank you for your support! NASA AGU AGI NSF