Starship Asterisk*

neufer wrote:

starsurfer wrote:
The entire shell is visible optically in hydrogen alpha!
See here: http://iopscience.iop.org/0004-637X/585/1/324/

The entire shell is visible optically in hydrogen alpha in this APOD if one looks carefully enough (at the yellow).

DavidLeodis wrote:I understand that the Universe may be expanding faster than the speed of light.

If so I wonder what will happen if the Universe starts to contract faster than the speed of light and thus light travelling out can catch up so to speak.

Geck wrote:
I guess the important thing to take away is that space is mostly empty but just a few extra atoms of stuff here and there mean we don't see a lot of perfect spheres.

DavidLeodis wrote:I wonder if the Universe is a perfect sphere?

geckzilla wrote:

DavidLeodis wrote:Why for example is it only a short length (relatively speaking compared to the rest of the sphere's circumference)

Once a ball of gas starts expanding and it's not held in shape by gravity then anything nearby can easily put dents in it or blow it into a very different shape. This is some special ionized hydrogen getting scrunched up on one side. What's it running into? I don't know if it's the hydrogen itself just chillin' out in space and getting blasted by the supernova or if some of it came out of the supernova itself and then ran into a denser part of space. I guess the important thing to take away is that space is mostly empty but just a few extra atoms of stuff here and there mean we don't see a lot of perfect spheres.

DavidLeodis wrote:Why for example is it only a short length (relatively speaking compared to the rest of the sphere's circumference)

somebodyshort wrote:I assume that at 60 light year diameter it has enveloped several stars. I also assume that as it went supernova it fried any possible life on nearby star systems.

geckzilla wrote:Bill, check this article:
http://hubblesite.org/newscenter/archiv ... 2/image/a/

It's a shock front, which I take to be a part of the expanding shell which is running into some interstellar gas, which slows it down a little (explains the "dent" in the sphere) and also glows faintly optically.

starsurfer wrote:
The entire shell is visible optically in hydrogen alpha!
See here: http://iopscience.iop.org/0004-637X/585/1/324/

somebodyshort wrote:
I assume that at 60 light year diameter it has enveloped several stars. I also assume that as it went supernova it fried any possible life on nearby star systems.

http://en.wikipedia.org/wiki/Near-Earth_supernova wrote:
<<One theory suggests that a Type Ia supernova would have to be closer than 10 parsecs (33 light-years) to adversely affect the Earth. On average, a supernova explosion occurs within 10 parsecs of the Earth every 240 million years. Gamma rays are responsible for most of the adverse effects a supernova can have on a living terrestrial planet. In Earth's case, gamma rays induce a chemical reaction in the upper atmosphere, converting molecular nitrogen into nitrogen oxides, depleting the ozone layer enough to expose the surface to harmful solar and cosmic radiation. Phytoplankton and reef communities would be particularly affected, which could severely deplete the base of the marine food chain. Adrian L. Melott et al. has even proposed that gamma ray bursts from a "dangerously close" supernova explosion ~444 million years ago, caused the Ordovician-Silurian extinction, which resulted in the death of nearly 60% of the oceanic life on Earth.

In 2009, researchers have found nitrates in ice cores from Antarctica at depths corresponding to the known supernovae of 1006 and 1054 CE, as well as from around 1060 CE. The nitrates were apparently formed from nitrogen oxides created by gamma rays from the supernovae. This technique should be able to detect supernovae going back several thousand years.>>

Boomer12k wrote:UM......Every Supernova Remnant has a Silver Lining?????

Interesting that there is very little..."yellow hues".....


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