Yes I do the same with my 80mm Refractor.. Sirius is awesome, and another one to find and observe is Betelgeuse! Right in Orions belt.. one of the first I learned how to find without a GoTo mount, lol
Do that again for a long time , Hold a tiny electric fan in 10 different places above , below , in , around etc... If your the same temp as the surrounding air , and you get it perfect , You might see Sirius's pup , The second star , It will be fairly close. Your scope has to be collimated really well. Nice !
@@astro-burak If you get it , It..means you have a excellent 8'' mirror and your collimation is really good. It's hard test everyone uses to check ones scope performance . I love that star , I could count on it for calibration etc.. even if it was a little cloudy
The term "light years" is a scientifically-impossible measurement. Light obeys the Inverse Square Law of Light and fades to black fairly rapidly over relatively short distances. Every time you double the distance to a light, it loses 75% of its brightness, according to the Inverse Square Law of Light. Therefore, our entire cosmology is absurd and implausible. The Heliocentric model is horrendously flawed and illogical. Every light you see in the sky above you is very close and very small, NOT millions, billions or TRILLIONS of miles away.
intensity of light doesnt change the speed of it OR distance of it, it just makes the light fainter sirius isnt at its peak brightness from where we're looking at it, thats why its magnitude -1 and thats why the same types of stars have different magnitudes if theyre very close, how come humans havent observed parallax with them by having 2 people observe them from different countries and then measuring the arcsecond / milliarcsecond displacement? why does that only happen with the moon and planets? if they were close and very small, we SHOULD be able to see the parallax, no? where is it?
heliocentric model is easily proven by looking at the phases of venus and mercury, and seeing their motion over time and seeing they circle around the sun any person with a telescope (or hell, even binoculars for venus) can easily do this themselves, and they can also use simulations like stellarium which shows where the planets and stars are in the sky accurately every day, and see how venus or mercury moves around the sun with it
Amazing my friend you deserve the subscription 😮👌🌌
Thanks ✨
Out of my collection, the 8in dobsonian is my absolute favorite! Clear skys my friend 🪐🌟
Thanks ✨
Osummm😮
Yes I do the same with my 80mm Refractor.. Sirius is awesome, and another one to find and observe is Betelgeuse! Right in Orions belt.. one of the first I learned how to find without a GoTo mount, lol
🌟✨
Do that again for a long time , Hold a tiny electric fan in 10 different places above , below , in , around etc... If your the same temp as the surrounding air , and you get it perfect , You might see Sirius's pup , The second star , It will be fairly close. Your scope has to be collimated really well. Nice !
I will try to image Sirius B sometime in the future ✨
@@astro-burak If you get it , It..means you have a excellent 8'' mirror and your collimation is really good. It's hard test everyone uses to check ones scope performance . I love that star , I could count on it for calibration etc.. even if it was a little cloudy
Did you see the Pup that night? There is something really faint just to the right of the star in the vid. Not sure if that is the pup or not.
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Gracias por tus videos
Gracias ✨
Twinkle twinkle little star, you are near yet you are far, so far away we cannot see your tiny companion Sirius B.
🌟✨
The term "light years" is a scientifically-impossible measurement. Light obeys the Inverse Square Law of Light and fades to black fairly rapidly over relatively short distances. Every time you double the distance to a light, it loses 75% of its brightness, according to the Inverse Square Law of Light. Therefore, our entire cosmology is absurd and implausible. The Heliocentric model is horrendously flawed and illogical. Every light you see in the sky above you is very close and very small, NOT millions, billions or TRILLIONS of miles away.
intensity of light doesnt change the speed of it OR distance of it, it just makes the light fainter
sirius isnt at its peak brightness from where we're looking at it, thats why its magnitude -1 and thats why the same types of stars have different magnitudes
if theyre very close, how come humans havent observed parallax with them by having 2 people observe them from different countries and then measuring the arcsecond / milliarcsecond displacement? why does that only happen with the moon and planets? if they were close and very small, we SHOULD be able to see the parallax, no? where is it?
heliocentric model is easily proven by looking at the phases of venus and mercury, and seeing their motion over time and seeing they circle around the sun
any person with a telescope (or hell, even binoculars for venus) can easily do this themselves, and they can also use simulations like stellarium which shows where the planets and stars are in the sky accurately every day, and see how venus or mercury moves around the sun with it