@__ka_wa_ii__: XIAO #xiao #alatus #xiaoedit #liyue #GenshinImpact #hoyoverse #genshin #genshinedit #fyp #foryou #foryoupage #viral #trending #__KA_WA_II__

KAWAII
KAWAII
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Region: NP
Tuesday 08 July 2025 17:04:16 GMT
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erin_020_
えりん (╹﹃╹) :
I'm begging Genshin to give us this as a skin 😩😩
2025-07-09 01:23:21
8876
yoinkersmcgee3000
YoinkerBadu :
Xiao is literally the only Character nobody is actively hating , yet he had the unfortune to be a early character
2025-07-13 10:08:02
1490
chanelannesyaguas
chanel :
X-Xiao mentioned?! This must be heaven
2025-07-11 11:07:57
1406
monroy_yoss_
Yoss^•~•^ :
Le entrego mi alma a tuhoyo si le sacan esa skin a xiao😭
2025-07-11 14:16:32
1254
renchik_sigmaboych
Emily :
если вдруг каким-то чудом выйдет такой скин на сяо то я готова и потратиться
2025-07-11 16:02:37
4797
lenlein
Len 🕸️ :
is that my glorious king xiao
2025-07-11 21:28:17
176
beomttubi
ttubi :
xiao cuando no lo usan como simulador de citas 🔝
2025-07-11 15:48:06
260
rebzyyx172
порез на собаке <--- :
держите меня всем Ли Юэ, я щас буду жрать свой телефон
2025-07-12 10:02:05
630
dumpl1ngz._
dumpling 🥟 :
NIHAO OG FINE SHYT
2025-07-11 23:21:39
165
_.marins_
тαιηα💗 :
Me esforcei tanto pra pegar e nem jogo mais 🫠
2025-07-12 15:56:35
174
kioyi_01
⁎꧂ᴍɪʟ-sᴜɴ ᥫ᭡ :
que salga de la pantalla y nos detone 🫦🫦🫦
2025-07-12 02:48:38
60
justdilyaa
justdilyaa :
Заберите мои деньги и дайте такой скин
2025-07-11 17:56:03
542
noahsasman2
SaTurn 🌚 :
Future skin? PLEASE GENSHIN PLEASEEE
2025-07-13 14:02:54
1
thais.silva982
Thais Silva :
Eu queria que no jogo ele fosse exatamente assim,ele tá muito lindo!
2025-07-14 16:33:10
11
sasukeaahh
sasukeaahh :
если будет такой скин,без раздумий куплю.
2025-07-12 09:33:16
72
aether_alo
aether_alo :
Мне интересно, если он самый слабый из яксов, то какая сила у других, ну Сяо конечно не так силен по лору, так и по урону, но все равно интересно
2025-07-12 16:19:27
85
travv8289
kamikaze :
если выйдет такой скин, я готова буду сделать все
2025-07-11 16:14:00
31
wodnery
ТГК: wodnery :
вот сяо выглядит прекрасно, и думаю, что по Лору он очень сильный, но почему он такой требовательный? у моего молодого человека он есть, 77.7 на 199.9, бьет под кучей баффов до 30к, ну почему?
2025-07-14 06:31:35
14
cochi_adopt
чайисия :
КАК ЖЕ ЕМУ ИДУТ ДЛИННЫЕ ВОЛОСЫ
2026-01-19 12:17:45
6
aca1i_
acai ᰔ :
"Are you coming?" yeah! on the screen! here cums the airplane!
2025-07-10 04:21:33
86
allanainlove
Allana♡ :
2025-07-11 04:55:52
27
maimai_321
A3th3r_innt 🕸️ ⁷ :
No one gonna talk abot how big his wings are?
2026-01-20 01:54:59
13
komikomiwa
komiwa :
это будет первый скин который мне понравится и который я куплю, если его добавят в игру
2025-07-14 09:40:59
36
sillly_jester
Ringabel :
Mi ropa desaparece cada que veo ese diseño de Xiao
2025-07-12 03:45:56
51
fuxxxtyp_246
тгк: Солонка :
добавьте ему этот скин уже
2025-07-14 15:25:24
13
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Other Videos

What you’re watching is not a real galaxy collision—it’s a fascinating laboratory experiment that behaves in a surprisingly similar way. Scientists discovered that tiny water droplets floating on a thin soap film can attract each other, orbit around one another, and finally merge. During the process, they even form shapes that closely resemble the bridges and spiral arms astronomers observe when galaxies collide. Although the forces are completely different, the motion follows similar mathematical patterns. In space, galaxies interact through gravity. In this experiment, the droplets interact because they deform the thin soap film, creating an attractive force that makes them move in a comparable way. This makes the experiment a powerful analogue model—a simple system that helps scientists study complex events that would normally take hundreds of millions of years to unfold. One of the most remarkable findings is the difference in timescales. A collision that takes about one second in the soap-film experiment can represent roughly 460 million years of galaxy evolution. By studying these tiny droplets in the lab, researchers can observe and measure processes that would otherwise be impossible to recreate on Earth. This does not mean galaxies are made of water or soap, or that the same force is acting in both cases. Instead, it shows that very different physical systems can produce strikingly similar behavior when they follow comparable mathematical rules. Discoveries like this help physicists better understand how galaxies interact, merge, and evolve across the universe.
What you’re watching is not a real galaxy collision—it’s a fascinating laboratory experiment that behaves in a surprisingly similar way. Scientists discovered that tiny water droplets floating on a thin soap film can attract each other, orbit around one another, and finally merge. During the process, they even form shapes that closely resemble the bridges and spiral arms astronomers observe when galaxies collide. Although the forces are completely different, the motion follows similar mathematical patterns. In space, galaxies interact through gravity. In this experiment, the droplets interact because they deform the thin soap film, creating an attractive force that makes them move in a comparable way. This makes the experiment a powerful analogue model—a simple system that helps scientists study complex events that would normally take hundreds of millions of years to unfold. One of the most remarkable findings is the difference in timescales. A collision that takes about one second in the soap-film experiment can represent roughly 460 million years of galaxy evolution. By studying these tiny droplets in the lab, researchers can observe and measure processes that would otherwise be impossible to recreate on Earth. This does not mean galaxies are made of water or soap, or that the same force is acting in both cases. Instead, it shows that very different physical systems can produce strikingly similar behavior when they follow comparable mathematical rules. Discoveries like this help physicists better understand how galaxies interact, merge, and evolve across the universe.

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