Posts Tagged ‘NASA Goddard’

Hubble Hubbub

Posted by amanda on Wednesday, May 5th, 2010

Hubble movie

2D talk before the 3D movie

When you see a star-filled picture of space, chances are it was taken by the Hubble Space Telescope (HST). Last night, my daughter and I were treated to a screening of the Hubble 3D IMAX movie at the Maryland Science Center celebrating 20 years of the HST orbiting the earth.

Before the show, Dr. Jennifer Wiseman, NASA Goddard Chief of the Laboratory for Exoplanets and Stellar Astrophysics, gave a brief history of HST’s adventures in space. In 20 years, HST has orbited the earth over 110,000 times, viewing the universe in a way we never could with ground telescopes. Although it was launched on April 24, 1990, the pristine images that Hubble is known for weren’t possible until December of 1993, when a repair crew carried by the Space Shuttle Endeavor replaced faulty parts and updated others. Whether or not the astronaut crew would be able to complete the difficult repairs was unknown, and the repair was an anxious time for scientists at NASA Goddard who could only watch and hope from the ground. Due to the astronauts’ success at that and other maintenance visits to the telescope, we have garnered immense insights into the birth and death of stars, the distance of far-off galaxies, and the origins of the universe. Servicing Mission 4 in May of 2009 is expected to extend the life of the HST to at least 2013.

The IMAX movie itself centers around the first astronaut visit, and the joy of astronauts and researchers when the HST finally reaches its full operational potential. The repair portion of the movie is flanked by beautiful in-depth images of nebulae where you enter a star nursery and view what may be the origin of a new galaxy. Besides the drama of space and science, there is also humor, due mostly to astronaut Drew Feustel.

If you have any interest in space or just an interest in looking at beautiful pictures, see this movie. Viewing the achievements of scientists, astronauts, and the NASA program will inspire you. During the movie, my daughter kept reaching her hands out to catch the stars, certain that the universe was within her grasp.

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Nano Nano

Posted by amanda on Thursday, February 25th, 2010

Carbon Nanotube

Carbon Nanotube; http://www.flickr.com/photos/ghutchis/ / CC BY-ND 2.0

Imagine a tiny tube. Now imagine it even tinier than that — so tiny that not even a single molecule of caffeine can pass through it. Carbon nanotubes, some only fractions of a nanometer (one billionth of a meter) in diameter, consist of seamless graphite layers shaped in cylinders with one capped end that can extend several centimeters.

Discovered accidentally in 1991 by Sumio Iijima, carbon nanotubes, despite their small size, have the strongest tensile strength of any known material. Their extremely high thermal conductivity, electrical superconductivity, precise positioning of atoms, light weight, and potential for molecular transport provide numerous applications in electronics, aerospace, and medicine. They may even be used for the construction of space elevators, providing material for the cable to move things between Earth and space. (Not humans, though, unless we do something about that nasty space radiation.) In the US, the potential of carbon nanotubes was recognized in 2001 with the establishment of the National Nanotechnology Initiative program.

Carbon nanotubes can have single or multiple walls. Single walled tubes have higher thermal conductivity and more desirable electrical properties for use in electronics and heat transport. Multiwalled tubes have potential as biosensors in medicine and laboratory science used to detect microscopic amounts of chemical or biological compounds. Nanotubes have potential in drug delivery and targeted treatment, although studies have shown nanotubes to be toxic in mice if they reach the lungs.

Unruly Mass of Nanotubes

NASA Goddard Photostream; Image credit: Yuki Kimura, Tohoku University

With the immense interest in carbon nanotubes, a revolution of sorts in industry has occurred. The synthesis of carbon nanotubes generally requires the use of a cobalt or nickel catalyst. But most recently, Joseph Nuth of NASA Goddard in Greenbelt and colleagues described a new form of nanotube synthesis in Astrophysical Journal Letters that results from the recycling of carbon in space when supernovas explode. Instead of requiring a metal catalyst, a mass of nanotubes were produced when graphite dust particles were exposed to a mixture of carbon monoxide and hydrogen gases (using a known method for making  liquid fuel from coal). This research was spawned by the discovery of graphite whiskers, large carbon nanotubes, that were found associated with meteorites. If this new form of synthesis can result in lightweight and orderly tubes, it may mean an innovation for the nanotube industry.

In addition, the formation of these large nanotubes may be the reason supernovas appear dimmer than we expect from their distance alone. Imagine that: A nanotube-haze in space.

Read an article in the Baltimore Sun on Nanotechnology here.

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Studying the Sun

Posted by amanda on Saturday, February 13th, 2010

UV image of the sun

Ultraviolet image of the Sun; Credit: NASA

While many of us were huddled at home during last week’s snowstorm, some employees at NASA Goddard Space Flight Center in Greenbelt were preparing for a mission of cosmic proportions. On February 11th, the Atlas V launched from Cape Canaveral to send the Solar Dynamics Observatory (SDO) into space on its mission to better understand the sun. Although no shuttles or satellites are actually launched in Maryland, Goddard provides critical mission support for shuttle launches and missions like SDO from its Mission Operation Center and Network Integration Center. In the lead up to a mission, the center is staffed 24 hours a day as they prepare for a launch.

Layers of the Sun

Layers of the Sun; Credit: NASA

Although it is the center of our solar system and our closest star, there is still much to learn about the Sun. We know the Sun is a ball of gas composed of the same elements found on Earth (mainly hydrogen and helium) that get denser as they move inward to the Sun’s core. We also know it is composed of distinct layers, but we can only observe the Sun’s outer layers directly. These include the deepest layer we can see, the photosphere, the next outer layer, the chromosphere, and the outermost region of the atmosphere, the corona, which can be viewed as a halo during an eclipse. Although temperature generally decreases as you move out from the core of the Sun, the chromosphere can reach temperatures higher than the photosphere, and the corona can reach millions of Kelvin. The corona is so hot that the majority of radiation is emitted at ultraviolet and X-ray wavelengths. (The atmosphere of the Earth can block most of this light, which is why we aren’t constantly sunburned.) We don’t yet understand why the corona is so hot. It may be because of the Sun’s magnetic field, but the mechanism is still unknown.

Most important to space weather (and therefore, Earth weather) is the Sun’s solar activity, which is measured by the amount of sunspots present on the Sun. Sunspots are cooler regions on the Sun’s photosphere and so appear to be darker than the photosphere. Although sunspots are locally cooler, their presence is associated with greater overall solar temperatures. They form in cycles of an average of 11.1 years, where at the maximum over 100 sunspots can be seen, and sometimes no spots are observed at the minima. The cycle of sunspots is closely related to the magnetism of the Sun and form in regions of intense magnetic activity. Solar flares and coronal mass ejections, large explosions in the Sun’s atmosphere, often occur in these magnetically intense areas. During extended periods of low solar activity, the Earth can experience cold temperatures (such as during the Little Ice Age in the 17th century).

The NASA Goddard-managed SDO will aid in understanding the Sun’s magnetic changes. The spacecraft is built to fly for five years but will probably outlast itself like previous satellites. SDO is the first satellite to launch under the Living With a Star program at NASA aimed to understand the relationship of the Sun to space weather. By measuring the properties of the Sun and solar activity, SDO plans to determine how the magnetic field is generated and structured and how the stored magnetic energy is released outward from the Sun into space. SDO data and analysis will be used to help predict the solar variations that influence life on Earth. Among other things, SDO will examine sunspots, solar flares, and coronal mass ejections like the one observed less than a month ago from another Goddard-associated satellite:

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STEREO satellite movie from NASA

We could certainly use more of the Sun around Baltimore right now.

For more detailed explanations of the Sun and its properties, see NASA or Wikipedia.

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