360 Video – Use the mouse to scroll the view on a computer. For full immersion, watch using a virtual reality device and a 360 video player.... Read More | Share it now!
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HH666: The Hidden Jet Launch [UltraHD]
Herbig Haro 666 is a young star that is shooting out narrow collimated jets in opposite directions. The jets are a byproduct of material falling onto to the star. The material is heated and then escapes along the star’s spin axis. Blazing across space at 200,000 miles per hour, the jets provide a way for the star to slow its spin by carrying off angular momentum. The star is hidden deep within the obscuring cloud of gas and dust shown in the Hubble visible-light image. In Hubble’s infrared view, the cloud mostly disappears, revealing the stars within. The jets will extend out to a light-year before dissipating. Jets are a dramatic example of the interaction between stars and the gas and dust that surrounds them.... Read More | Share it now!
What Happens If You Drive Car Over Hubba Bubba Bubble Gum?
How does a car tire react to a whole bunch of hubba bubba bubble gum? I covered a Samsung Galaxy S9 in the chewing gum and took it out for a spin!... Read More | Share it now!
Vision Across the Full Spectrum: The Crab Nebula, from Radio to X-ray [Ultra HD]
The Crab Nebula (Messier 1) is the remnant of a supernova that exploded in the year 1054 AD. This mysterious “new star,” as early skywatchers called it, was observed around the world and most notably recorded by Chinese astronomers. The supernova was triggered when the progenitor star abruptly collapsed onto its iron core, and rebounded to expel most of its layers of gas into a blast wave. This wave is seen as an optical and infrared set of filaments that continues to impact surrounding material. This material was expelled from the dying red giant progenitor star 20,000 years prior to the supernova. The ultra-dense remnant core, called a neutron star, is crushed to the size of a city. Spinning furiously, the neutron star sends out twin beams of radiation, like a lighthouse. A lot of this energy comes from the neutron star’s intense magnetic fields. ... Read More | Share it now!
Gravitational Wave Astronomy
Gravitational Wave Astronomy
Andrew Fruchter, Space Telescope Science Institute... Read More | Share it now!
Lagoon Nebula: M8 [UltraHD]
This video compares the colorful Hubble Space Telescope visible-light image of the core of the Lagoon Nebula and a Hubble infrared-light view of the same region. ... Read More | Share it now!
NGC 2207: Colliding Galaxies [Ultra HD]
NGC 2207 is a pair of colliding spiral galaxies. Their bright central nuclei resemble a striking set of eyes. In visible light, trails of stars and gas trace out spiral arms, stretched by the tidal pull between the galaxies. When seen in infrared light (IR), the glow of warm dust appears. This dust is the raw material for the creation of new stars and planets. Complementary to the IR, the X-ray view reveals areas of active star formation and the birth of super star clusters. Though individual stars are too far apart to collide, the material between the stars merges to create high-density pockets of gas. These regions gravitationally collapse to trigger a firestorm of starbirth. The galaxy collision will go on for several millions of years, leaving the galaxies completely altered in terms of their shapes.... Read More | Share it now!
Tonight’s Sky: May 2018
In May, the stars and galaxies of Virgo and Canes Venatici, the full disc of Jupiter, and the Eta Aquarid meteor shower are all on view in the Northern Hemisphere. ... Read More | Share it now!
Sculpture Garden of Gas and Dust: Core of the Lagoon Nebula
This video zooms into the core of a rich star-birth region called the Lagoon Nebula, located in the constellation Sagittarius in the direction of our Milky Way galaxy’s central bulge. The sequence then dissolves to a series of imagined three-dimensional flights past striking structures of this gaseous landscape. Viewers examine dark, dusty clouds silhouetted against a colorful background of luminous gas that has been heated by a massive star. Pillars of dense gas and bow shocks around newborn stars are shaped by the strong winds from the brightest stars. The intense high-energy emission from these same stars creates the glowing ridges of gas in ionization fronts. These features are some of the highlights of this vibrant region where new stars and planets are born.... Read More | Share it now!