Saturn vs j1407b

preview_player
Показать описание

Рекомендации по теме
Комментарии
Автор

" *Lord Of The Ring* "
-🍷🗿

White-dnmm
Автор

To be honest the planet has a nickname called “super Saturn”

Prehistoric_Entemo
Автор

That thing’s gravitational field must be HUGE to keep all those rings stable

Neoliser
Автор

These space edits with phonk music are getting good

IfRWRatyuifwu
Автор

The rings of J1407b are turning into moons and some are clearing the rings and J1407b is young and can’t keep the rings long enough to last forever😅

babybum
Автор

Other planets have rings but this time ring have a planet..🗿✨

balashree
Автор

Yo this is my first video that reached 100k thank you guys for the support!
Edit:Thanks guys for 1 million views i appreciate it!😁

PEDRO_CALUNGSOD
Автор

Saturn : I have the most beautiful rings
J1407b : *hold ma beer*

moromr
Автор

The amount of clothes i wear during the winter!💀

Sheikhsigmacatbingigacat
Автор

Fun Fact:j1407b's mass is 10 to 40 times the mass of jupiter.

CatWaifu
Автор

Bro dropped the hardest j1407b edit and thought we wouldnt notice 🥶🥶🥶🥶🥶🔥🔥🔥🔥🔥🔥

avannen
Автор

J1407B... The TRUE Lord of The Rings...

leotheburrito
Автор

Ring battle:
Saturn-You can’t defeat me
Uranus-I know but he can
J1407b has joined chat

supershyguyyt
Автор

Honey said she wanted a bigger ring.but din't said a bigger stone - 🗿💗

ShinnyTovs
Автор

J1497b 31 rings, 434 light years away.

jonuam
Автор

The formation of rings around exoplanets is not yet fully understood, as it is a complex and dynamic process that can vary depending on the specific circumstances. However, there are a few theories that scientists have proposed to explain the formation of rings around exoplanets.

One theory suggests that the rings around exoplanets could be formed by the gravitational forces of nearby moons or small objects. These objects, such as asteroids or small moons, can be captured by the gravitational pull of the exoplanet and eventually break apart due to tidal forces. The debris from these shattered objects can then form a ring around the planet.

Another theory proposes that the rings could be remnants of the protoplanetary disk from which the exoplanet formed. During the early stages of planetary formation, a disk of gas and dust surrounds the young star. As the planet forms within this disk, it can clear out a gap, leaving behind a ring of material.

It's important to note that these are just theories, and the formation of rings around exoplanets is still an area of active research. As our technology and observational capabilities improve, we may gain more insights into the formation and characteristics of exoplanetary rings.

miniartstv
Автор

Guys the reason it has so many rings is because it's gravity is much stronger than that of Saturn
Also its very young therefore it's moon are just forming

GymSagaToTo
Автор

saturn:im so cool nobody can beat me
j1407b:what did you say
saturn:nothing dad

Red_Captain
Автор

"Guys guys let's find a new planet!"
"Rings??•_•?

RodexnStuff
Автор

You might be surprised to know that J1407b as you imagine it (very likely)

J1407b was thought to orbit a star called V1400 Centauri on an orbit that took 10-12 years to complete. We knew this by detecting J1407b using . When an object passes in front of a star, it dims, and by seeing that dimming, we can detect a planet. Based on how long the transit was, we confirmed how fast it was moving that it had rings, because the transit dimmed in a way that showed rings.
Below is an image showing J1407b's transit.

But J1407b hasn’t been seen again. We checked the star at the time J1407b was supposed to complete an orbit and be seen again, but it wasn’t there.
To make things worse, astronomers have been studying V1400 Centauri since the 1850s. In all of that time, we have not detected a single other transit event like J1407b. Whatever it was, it only passed in front of the star once.

So, does J1407b even exist at all? Or was it a false detection of a planet?
Well, there is one hypothesis to explain J1407b, which is that it could be a rogue object. For an object to be “rogue”, it simply means it doesn’t orbit a star. A brown dwarf is a type of object that isn't a planet or a star, but is somewheere in between, so, J1407b might be a . These objects are common in the galaxy.
The most recent data suggests that J1407b was not a planet with rings, but was in fact one of these rogue brown dwarfs surrounded by a ring of dust called a protoplanetary disk. In this case, J1407b would not have rings at all, but a disk of dust surrounding it.

Whatever J1407b is, it seems to not be what anyone was expecting. Instead of a planet, it seems that J1407b is a failed star, wandering the galaxy alone.

JovianNacho