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Interstellar dust

Interstellar dust Only about 0.7 percent of the mass of the interstellar space is within the sort of solid grains, but these grains have a profound effect on the physical conditions within the gas. Their main effect is to soak up stellar radiation; for photons unable to ionize hydrogen and for wavelengths outside absorption lines or bands, the dust grains are far more opaque than the gas. The dust absorption increases with photon energy, so long-wavelength radiation (radio and far-infrared) can penetrate dust freely, near-infrared very well , and ultraviolet relatively poorly. Dark, cold molecular clouds, within which all star formation takes place, owe their existence to dust. Besides absorbing starlight, the dust acts to heat the gas under some conditions (by ejecting electrons produced by the photoelectric effect, following the absorption of a stellar photon) and to chill the gas under other conditions ...

"Proxima Centauri " the nearest star from us

The proxima centauri ..... proximal centaur I The star Proxima isn’t visible to the attention , but it’s one among the foremost noted stars in Earth’s sky. That’s because it's considered to be a part of the Alpha Centauri star system, a triple system, and therefore the nearest star system to our sun. Of the three stars in Alpha Centauri , Proxima is assumed to be the one actually closest to our sun, at 4.22 light-years away. The image above – from the Hubble Space Telescope – is one among the simplest we’ve seen at showing Proxima clearly. proxima centauri If it’s so nearby, why can’t we see Proxima with the eye? It’s because Proxima is so small. It’s a red dwarf star star with only about an eighth of the mass of the sun. Faint red Proxima – at only 3,100 degrees K (5,120 F) and 500 times less bright than our sun – is almost a fifth of a light-year from Alpha Centauri A and B. This great distance from the 2 primary stars within the system is what calls int...

How NASA Will Protect Astronauts From Space Radiation at the Moon

How NASA Will Protect Astronauts From Space Radiation at the Moon August 1972, as NASA scientist Ian Richardson remembers it, was hot. In Surrey, England, where he grew up, the fields were brown and dry, and other people tried to remain indoors — out of the Sun, televisions on. except for several days that month, his TV picture kept ending . “Do not adjust your set,” he recalls the BBC announcing. “Heat isn’t causing the interference. It’s sunspots.” The same sunspots that disrupted the tv signals led to enormous solar flares — powerful bursts of energy from the Sun — Aug. 4-7 that year. Between the Apollo 16 and 17 missions, the solar eruptions were a mishap for lunar explorers. Had they been in orbit or on the Moon’s surface, they might have experienced high levels of radiation sparked by the eruptions. Today, the Apollo-era flares function a reminder of the threat of radiation exposure to technology and astronauts in space. Understanding and predicting solar eruptions is cru...

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