My god... it's full of stars!

Pretty damn massive.  Wonder if it'll ever be possible to visit places that far..

I would be very surprised if no other inteligent life exists.

Tesla: Look up "parallax," and when you've absorbed that look up "standard candles" and you'll have your answers.

I'm gonna need more Terror Stars.

The chances of something happening within a near-infinite universe are nearly 100%.  Something like %99.99999999999999999---

Saying there's no other life with the facts of the thing staring straight the hell at us is like standing in a hurricane screaming "BOY BAD WEATHER NEVER HAPPENS HERE WHAT WOULD I POSSIBLY NEED INSURANCE FOR!!??!!?1?12)

The real terrifying part of VY Canis Majoris is that when hypergiant stars die, they send out a intense Gamma ray stream that boils everything in its path.  Since its 5000 light yeara away, the stream will still be strong enough to kill everything on this planet.

There are multiple ways of measuring size and distance. I think three are commonly used. In order of increasing distance:

1. 2 points far away (on opposite sides of earth) measure the angle

2. Can't quite remember this one unfortunately...

3. Redshift from the universe's expansion

The ods of there being intelligent life in the universe other than our own are indeed close to 100%. The only question that truly remains is one of communication and discovery. FTL communication will be required to reduce the time between exchanged conversation below a generation or two (or much more for our further neighbours).

I say hi, my son lives when they hear it and my grandson gets to hear their reply (and try to decipher it). They're out there, but they're not reachable without significant advancement in out technological level.

As to calculating distance of stars, The paralax method is used to calculate the distance out to roughly 1000 LY. beyond that there are several methods.

Stellar motions: All stars are in motion, but only for nearby stars are these motions perceivable. Statistically, therefore, the stars that have larger motions are nearer. By measuring the motions of a large number of stars, we can estimate their average distance from their average motion.

Moving clusters: Clusters of stars travel together, such as the Pleiades or Hyades star clusters. Analyzing the apparent motion of the cluster can give us the distance to it.

Inverse-square law: The apparent brightness of a star depends both on its intrinsic brightness (its luminosity, or how bright it really is) and its distance from us. If we know the luminosity of a star (for instance, we have a measured parallax for one star of the same type and know that others of the same type will have similar luminosities), we can measure its apparent brightness (also called its apparent magnitude) and work out the distance using the inverse-square law. There are several variations on this, many of which are used to measure distances to stars in other galaxies.

Interstellar lines: The space between stars is not empty, but contains a sparse distribution of gas. Some times this leaves absorption lines in the spectrum we observe from stars beyond the interstellar gas. The further a star is, the more absorption will be observed since the light has passed through more of the interstellar medium.

Period-luminosity relation: Some stars are regular pulsators. The physics of their pulsations is such that the period of one oscillation is related to the luminosity of the star. If we measure the period of such a star, we calculate its luminosity. From this, and its apparent magnitude, we can calculate the distance.

I pulled that off of http://imagine.gsfc.nasa.gov/docs/ask_astro/answers/970415c.html

Truly amazing. Vy Canis Majoris is scary in size.. and that's just the biggest star that we know of.

And to answer Teslas question about the Solar system... the diagram is showing how big each of the planets are in relation to the sun, not the actual solar system itself, however, there are stars that are *gasp!* bigger than our entire solar system. Kinda scary.

And to think that each of the stars listed above are only in our galaxy, truly speaks for the size of the universe.

Using simulations, scientists have determined that atleast 10,000 "intelligent" species should be in our universe. And that was using a simulation with a very glum outlook on intelligent life. The question is not... do aliens exist, but rather when we will meet with these aliens?

Hmm....very interesting. Thanks for answering my questions.

This is... amazing...

Think of the possibilities...

If we could reproduce this phenomenon in travel, the galaxy will open to us.  Billions upon Trillions of worlds at our fingertips. 

The strength of mankind, its ability to last until the last days of the last stars, will be defined by moments such as these.

If there are a hundred billion stars in the milky way and it took them 300 years to map 11% of the galaxy then they mapped a bit over 100 000 stars each day

(on average that is)