Language
English
عربي
Tiếng Việt
русский
français
español
日本語
한글
Deutsch
हिन्दी
简体中文
繁體中文
API
Home
How To Use
Language
English
عربي
Tiếng Việt
русский
français
español
日本語
한글
Deutsch
हिन्दी
简体中文
繁體中文
Home
Detail
@phan.rang.center: LỢI THẾ VÀNG VÀ CAM KẾT ĐỒNG HÀNH KIẾN TẠO THỊNH VƯỢNG
NGUYỄN HỮU CHÍ KHOA
Open In TikTok:
Region: VN
Tuesday 03 February 2026 19:36:49 GMT
4048
477
5
13
Music
Download
No Watermark .mp4 (
41.78MB
)
No Watermark(HD) .mp4 (
27.79MB
)
Watermark .mp4 (
41.78MB
)
Music .mp3
Comments
Trang Lê Shop Online :
Nhìn đẹp quá
2026-02-06 03:52:24
1
Diễm Trần :
nhìn đẹp quá 🥰🥰🥰🥰🥰
2026-02-06 07:33:00
1
🍒bà nội bánh bao🍒 :
🥰🥰🥰
2026-02-05 00:32:04
1
Huy Thanh :
🥰🥰🥰🥰🥰🥰🥰
2026-02-05 10:06:32
1
Thảo Nhiều :
🥰🥰🥰🥰🥰
2026-02-06 01:33:53
1
To see more videos from user @phan.rang.center, please go to the Tikwm homepage.
Other Videos
#fyp #renzo #preset #foryoupage #alightmotion FYP 🥀🙏
#🍦#rek
My uncle dances after getting 271k coins in Auschwitz 😁 || #271 #iqmaxx #ww2 #fyp #foryou || Graham's number is an unimaginably massive integer that famously served as the upper bound for a problem in Ramsey theory. It is so large that the observable universe is far too small to contain its digits, even if every digit were reduced to the size of a single Planck volume.The Origin and PurposeThe Problem: It originated in 1971 from a geometric problem involving multidimensional hypercubes. Specifically, it provided a ceiling for the number of dimensions required to guarantee a specific structural pattern would occur when the lines connecting all corners of the cube were colored.The Mathematician: It is named after American mathematician Ronald Graham, who used the number as a simplified upper limit in conversations with the science writer Martin Gardner.The Record: It held the Guinness World Record for the largest number ever explicitly used in a serious mathematical proof, though subsequent proofs have since utilized even larger numbers, such as TREE(3).How Big is It?Graham's number is so extreme it cannot be written using standard scientific notation or simple power towers (like \(a^{b^{c}}\)). Instead, mathematicians express it using Knuth's up-arrow notation, where the number of arrows increases recursively.Step 1: It starts with \(3 \uparrow\uparrow\uparrow\uparrow 3\) (where the four arrows mean performing exponentiation operations in a nested tower of powers). This yields an already incomprehensibly large number.Step 2: To find the next level (G₂), the number of arrows between the threes is equal to the value of the previous number, G₁.The Result: This recursive, mind-boggling process is repeated exactly 64 times. The final result is Graham's number, denoted as G₆₄. || @naveedblud2.0 @epitaph @Misanthropyblud @jon
Nvidia just flipped the model: instead of only selling chips, it’s fronting startups compute and taking a cut of the revenue they generate. CFO Colette Kress calls it a “usage-linked earnings stream.” The pattern is undeniable. Larry Fink says compute futures are the next asset class. OpenAI traded $2M in tokens for equity across an entire YC batch. Now Nvidia wants a cut of what its compute creates. The world’s biggest chipmaker just became a rev-share partner. If you needed one more signal that compute is the new oil — this is it. If you like this kind of thing and want to stay close — join our community Frontier. Link in bio. nvidia, compute, artificial intelligence, revenue share, ai agents, larry fink, openai, asset class, jensen huang, ai infrastructure #venturecapital #nvidia #ai #investing #founder
Keo Vuốt Tóc X-Men For Boss Gel Super Strong Hold 150g #sieuthimini
About
Robot
API
Legal
Privacy Policy