M-Type: "Hey, I formed!" - Hundred of billions years later: "I'm still youmg, but were have all other stars gone?..." O-Type: "Hey, I formed! Guess it's time to go supernova now..."
0:37 wait what- is that even possible for planet to be visible like that far at 2 light years?? Also the animations is better tho, and the drawing its so cool!
fun fact low mass O type stars do have the capability of turning into neutron stars, hi, mass oh type stars, on the other hand, will collapse into black holes
How could O type star have a Planet? There's a small chances that an O type star could capture a old cold Browndwarf with small planets orbiting it due to the fact that These O stars have immense Gravitational Boundaries and Immense Gravity.. however its so short lived that the captured rouge Planet wouldn't have a time to migrate inwards nearer to Star
The star starts forming 0:04 the star form 0:07 he thinks he is gonna die alone 0:18 these planets, see something 0:22 it starts getting brighter 0:29 the star find planets 0:35 ig so 0:38 it’s about to be out of hydrogen 17% 0:43 out of hydrogen 0:49 the star, turns into a red supergiant 0:59 the star, turns into a white dwarf 1:12
But the star was supposed to explode into a supernova not quietly shed its outer layers and leave the core as a neutron star. Also, O-type stars that become neutron stars do not have a shade of blue that dark. An O-type star with 16 Solar Masses would have a spectral class of 09, which makes it still have a brighter shade of blue than really massive O-Type Stars.
We don't know if the planets "formed" during the stars lifetime, the planets could have been rouge planets that just fell into a stars gravitational pull
@@FunnySpaceMan. That's not how that works. When an object falls in a star's gravitational field, even a large object like a planet, potential energy is converted into kinetic energy and the object picks up speed. Unless something takes some of its energy away when it gets closer, it isn't going to be losing any energy during this approach, so it won't have any way to slow down and be captured. How is a planetless star with an at most a faint, rapidly eroding debris disk going to capture a planet?
When the planets form, then lose their star a instant later
lol
Planets: Yay dad I hope we can stay with you forever
11 million years later: sorry guys ran out of milk (milk meaning hydrogen) gotta go die now
@@FunnySpaceMan.another Million years later: where planets
I was hoping to see the star go supernova, and one of the remaining planets scream "I'm burning, OMG, the pain."
Hii😊
O Type Star Timeline In A Nutshell:
O Type: My Last Words Are..
And Then he dies..
Lol 😂
It lives longer than me
M-Type: "Hey, I formed!" - Hundred of billions years later: "I'm still youmg, but were have all other stars gone?..."
O-Type: "Hey, I formed! Guess it's time to go supernova now..."
Well that was quick.
Congrats for the 100 subs!!
Tysmmm gonna make a vid abt it
Awesome video. The star became a pulsar.
Finally you added moons
Longest living O type
0:37 wait what- is that even possible for planet to be visible like that far at 2 light years??
Also the animations is better tho, and the drawing its so cool!
Mass
@@saltyocean2003 because single light year equal to 9.5 trillions of km’s thats way far for planets to be warm at this far distance
yes
@@thebeautyofuniverse5250 but it is an enourmous star. some stars are tens of millions of times brighter than the sun
Yes. Maybe as much light as Eris or so gets from the Sun
R.I.P Cygnus 11 million years to 2022
wtf
Congratulations with 100 subs
Nice video, there's only a little mistake in the title, Rigel is a B-type star, not an O-type.
True that what I'm about to say
Also, O type should not have a planet it is to big and too luminous to have a planet
@@ArwinaAndArtola bruh ,the planet the star has is a rouge planet before
You realize O-type stars can capture planets right?
Changes title
@@saltyocean2003 Ok
salty ocean I think even the least massive o type stars can only live for up to around 10 million years
fun fact low mass O type stars do have the capability of turning into neutron stars, hi, mass oh type stars, on the other hand, will collapse into black holes
O Stars Cant Have Planets. They Would Simply Vaporize due to the intense heat.
They can capture them at a far distance
@@saltyocean2003 It wouldn't have enough time for the planet to migrate to the star, the star would be already dead if the planet got captured
1:02 sad music
How could O type star have a Planet?
There's a small chances that an O type star could capture a old cold Browndwarf with small planets orbiting it due to the fact that These O stars have immense Gravitational Boundaries and Immense Gravity.. however its so short lived that the captured rouge Planet wouldn't have a time to migrate inwards nearer to Star
The star starts forming 0:04 the star form 0:07 he thinks he is gonna die alone 0:18 these planets, see something 0:22 it starts getting brighter 0:29 the star find planets 0:35 ig so 0:38 it’s about to be out of hydrogen 17% 0:43 out of hydrogen 0:49 the star, turns into a red supergiant 0:59 the star, turns into a white dwarf 1:12
after k type, can you do brown dwarfs sometime after? you dont have to do it right after.
Sure i can do it
@@saltyocean2003 like L, T and Y type.
@@badger8798 you got it
Очень рад увидеть видео про звезду типа О
Cool!
Thx
But the star was supposed to explode into a supernova not quietly shed its outer layers and leave the core as a neutron star. Also, O-type stars that become neutron stars do not have a shade of blue that dark. An O-type star with 16 Solar Masses would have a spectral class of 09, which makes it still have a brighter shade of blue than really massive O-Type Stars.
Nerd
Is that a neutron star at the end? It looks like a pulsar.
You are worth something please come back and make more videos
Can you add 8 planets for K?
And 3 moons for each gas giant?
I was gonna add 8 planets and idk for moons
@@saltyocean2003 i will give you a month to do it
@@howardty2733 cant promise anything
@@saltyocean2003 where is k type timeline
1:21 is that a pulsar?
Cmon why didnt you show the supernova😢
😍😍😍🤩🤗😉
0:21 What type of star when star died?
Probably a or f
Planets take 20 million years to form so its impossible for O-types to get planets
some occasions even lower than that
We don't know if the planets "formed" during the stars lifetime, the planets could have been rouge planets that just fell into a stars gravitational pull
@@FunnySpaceMan. That's not how that works. When an object falls in a star's gravitational field, even a large object like a planet, potential energy is converted into kinetic energy and the object picks up speed. Unless something takes some of its energy away when it gets closer, it isn't going to be losing any energy during this approach, so it won't have any way to slow down and be captured.
How is a planetless star with an at most a faint, rapidly eroding debris disk going to capture a planet?
but what if the planets formed before the O type star formed?
😭😭😭😭😭
Did it go supernova?
idk did it
I feel bad for 0 type star :(
it's O type not 0 type
@@robinpinar9691 I know alright
Ok
Very fast
hi there
hello
Actually a 15.8 Solar Mass Star will not go through a wolf Rayet stage before it dies
guys dont say anything about the thumbnail
Ik its not the best
0:20 don’t worry I will be with you. we can be a binary! Orrrrr not?
the moons should be called B II and B III
I didnt bc the planet isnt B i plan on making this planets backstory
I thought o type stars were not small enough to have planets
It dies soooo fast.
first >:3
no supernova?!?!
No sadly
@@saltyocean2003 Scientifically Inaccurate!
@@PlanetGuy901OMG THAT'S SUCH A SHAME
how can a o type star have planets
they can capture them
R136a1 is a Wolf-Rayet star not an o type star.
Omg i hate myself
R136a1 is W type
@@waitingwong8941 already changed it
@@saltyocean2003 oke
1:06 where planets
oh O type stars can't have planets :(
O type stars cant have planets.
That will suck