Ventilator Systems

Keeping astronauts healthy as well as providing them with adequate medical care can be an enormous challenge due the extremely harsh environment of space. For years NASA has been conducting research and experiments to improve the medical care that astronauts can use in space. NASA teamed up with Impact Instrumentation Inc., a manufacturer and innovator of respiratory care products and instrumentation for military and civil emergency medicine, to develop better critical care capabilities. The Advanced Group Project of NASA worked with Impact Instrumentation to create the LTM (Lightweight Trauma Module). This single device combines once separate devices such as ventilators, heart monitors and IV pumps.

Astronomy Picture of the Day (April 22)

Explanation: When does Mars act like a liquid? Although liquids freeze and evaporate quickly into the thin atmosphere of Mars, persistent winds may make large sand dunes appear to flow and even drip like a liquid. Visible on the above image right are two flat top mesas in southern Mars when the season was changing from Spring to Summer. A light dome topped hill is also visible on the far left of the image. As winds blow from right to left, flowing sand on and around the hills leaves picturesque streaks. The dark arc-shaped droplets of fine sand are called barchans, and are the interplanetary cousins of similar Earth-based sand forms. Barchans can move intact a downwind and can even appear to pass through each other. When seasons change, winds on Mars can kick up dust and are monitored to see if they escalate into another of Mars’ famous planet-scale sand storms.

Source: apod.nasa.gov/apod

 

Astronomy Picture of the Day (April 21)

Explanation: Despite their resemblance to R2D2, these three are not the droids you’re looking for. Instead, the enclosures house 1.8 meter Auxiliary Telescopes (ATs) at Paranal Observatory in the Atacama Desert region of Chile. The ATs are designed to be used for interferometry, a technique for achieving extremely high resolution observations, in concert with the observatory’s 8 meter Very Large Telescope units. A total of four ATs are operational, each fitted with a transporter that moves the telescope along a track allowing different arrays with the large unit telescopes. To work as an interferometer, the light from each telescope is then brought to a common focal point by a system of mirrors in underground tunnels. Above these three ATs, the Large and Small Magellanic Clouds are the far far away satellite galaxies of our own Milky Way. In the clear and otherwise dark southern skies, planet Earth’s greenish atmospheric airglow stretches faintly along the horizon.

 Sources: apod.nasa.gov/apod

 

Astronomy Picture of the Day (April 20)

Explanation: Except for the rings of Saturn, the Ring Nebula (M57) is probably the most famous celestial band. Its classic appearance is understood to be due to perspective – our view from planet Earth looks down the center of a roughly barrel-shaped cloud of glowing gas. But expansive looping structures are seen to extend far beyond the Ring Nebula’s familiar central regions in this intriguing composite of ground based and Hubble Space Telescope images with narrowband image data from Subaru. Of course, in this well-studied example of a planetary nebula, the glowing material does not come from planets. Instead, the gaseous shroud represents outer layers expelled from the dying, once sun-like star at the nebula’s center. Intense ultraviolet light from the hot central star ionizes atoms in the gas. Ionized oxygen atoms produce the characteristic greenish glow and ionized hydrogen the prominent red emission. The central ring of the Ring Nebula is about one light-year across and 2,000 light-years away. To accompany tonight’s shooting stars it shines in the northern constellation Lyra.

Source: apod.nasa.gov/apod

 

Astronomy Picture of the Day (April 19)

Explanation: Climbing into cloudy skies, the Space Shuttle Orbiter Discovery (OV-103) took off from Kennedy Space Center Tuesday at 7 am local time. This time, its final departure from KSC, it rode atop a modified Boeing 747 Shuttle Carrier Aircraft. Following a farewell flyover of the Space Coast, Goddard Space Flight Center, and Washington DC, Discovery headed for Dulles International Airport in Virginia,destined to reside at the Smithsonian’s National Air and Space Museum Udvar-Hazy Center. Discovery retires as NASA’s most traveled shuttle orbiter, covering more than 148 million miles in 39 missions that included the delivery of the Hubble Space Telescope to orbit. Operational from 1984 through 2011, Discovery spent a total of one year in space.

Source: apod.nasa.gov/apod

 

 

Astronomy Picture of the Day (April 18)

Explanation: What would it be like to fly a space shuttle? Although the last of NASA’s space shuttles has now been retired, it is still fun to contemplate sitting at the controls of one of the humanity’s most sophisticated machines. Pictured above is the flight deck of Space Shuttle Endeavour, the youngest shuttle and the second to last ever launched. The numerous panels and displays allowed the computer-controlled orbiter to enter the top of Earth’s atmosphere at greater than the speed of sound and — just thirty minutes later — land on a runway like an airplane. The retired space shuttles are now being sent to museums, with Endeavour being sent to California Space Center in Los Angeles, California, Atlantis to the Kennedy Space Center Visitor Complex on Merritt Island, Florida, and Discovery to the Udvar-HazyAnnex of the National Air and Space Museum in Chantilly, Virginia. Therefore sitting in a shuttle pilot’s chair and personally contemplating the thrill of human space flight may actually be in your future.

 Source: apod.nasa.gov/apod