WHAT ARE THE SIZES AND DISTANCES OF STARS COMPARED WITH THE SIZES AND DISTANCES OF PLANETS?
We know the sizes of planets in diameter. We can see the planets in the size of about 2,0 mm on the night sky. We know the distances of planets from Sun in AU:s, astronomical units. But what are the sizes and distances of stars compared with the sizes and distances of planets? In all we see the sizes of stars on the night sky in the size of about 0,5 to 2,0 mm. Stars are much more bigger than the planets. If we take Sun to the distance of about 150 AU:s, astronomical units, about 20 light hours, we see Sun in the size of about 1,0 mm. What this all means? If we think star as an acromatic object of light, we cannot see them in the distances of light years at all but in light hours.
Here is the table of planets:
Planet average distance from Sun in AU:s diameter in km %-size of Sun
Mercury 0,387 4800 0,35
Venus 0,723 12700 9,13
Earth 1,000 12800 0,92
Mars 1,524 6800 0,49
Jupiter 5,203 143000 10,30
Saturn 9,555 121000 8,7
Uranus 19,218 50000 3,55
Neptune 30,110 45000 3,24
Pluto 39,518 6000 (?) 0,43
Average 4,52
If we look at the table we can find out the there are giant planets as Jupiter and Saturn. They are almost like small stars. What is important that we see them on the night sky in the size of about 2,0 mm. Their size is about 9,00 % of the size of Sun. Jupiter is in the distance of about 5,203 AU:s and Saturn is in the distance of about 9,555 AU:s from Sun. If we think the nearest star from Sun called Proxima Centaury which size is almost as the size of Sun. Sun can be seen in the distance of 1,00 AU:s of about the size of 30 mm. If we compare the %-sizes of planets compared with the diameter of Sun with the size of Proxima Centaury we can make a conclusion that Proxima Centaury star must be in the distance of about 150 AU:s, astronomical units from Sun, which is about 20 light hours, NOTE: not 4,3 light years as we nowadays measure by the spectra of light. NOTE: we think the star Proxima Centaury as an acromatic object of light. If we take Proxima centaury in the distance of 4,3 light years, we cannot see it all!!!! AMAZING CONCLUSION! So, in all all the stars are much more nearer objects as we nowadays measure. We have to speak about light hours instead of light years while measuring the distances of stars. I have proved this by my maths of DIMINISH STANDARD. You can find an article about the diminish standard in Articlesbase by the article search words of: antti johannes vaalama.
We can make finally a conclusion that THE UNIVERSE IS A MUCH MORE SMALLER CONCEPT TO UNDERSTAND! What are the distances of galaxies, it´s a different question but I claim that they are much more nearer as we nowadays measure by the spectra of light.
We can calculate all the distances of stars by a new way by using a proportional equation by light years in order to arrange the distances of stars in light hours and in AU:s, astronomical units! You can find a table in Articlesbase about my calculations of the new distances of stars in LIGHT HOURS and in AU:s!
