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@pbrdorock: P qm pediu em ingles 😁😁 #fy #vaiprofycaramba #thenigthbeginstoshine

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Saturday 04 March 2023 23:16:09 GMT
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evajjx
evajjx :
2025??
2025-04-30 17:43:37
16
xime_edits_2h
1%✓ :
alguien de 2025?
2024-12-29 01:40:21
42
lakaion_
H'L🔱 :
i love teen titans
2025-04-14 00:11:43
1
levi.surui73
Levi Surui :
quero voltar a minha infância 🥺
2026-04-08 22:32:27
1
user3615388553245
anielka :
2026-04-07 01:50:15
0
x507zx
1999 :
2025-12-17 22:17:30
3
fersy888
SOFi 🎀 :
Amó los Jóvenes Titanes 😌
2025-03-27 16:18:53
2
mhamad_harki222
M❤️? :
2024 ❤️❤️❤️
2024-08-25 14:39:21
4
hisamndx_vanp13
Amanda :
q saudades
2023-03-10 22:46:34
10
xoxontt
3l1u4 :
a noite vai brilhar aaaaa melhores dos melhores 😰💐
2023-04-11 22:11:06
5
leu.medeu1
⍨⃝ :
the night will shine
2024-12-08 03:34:49
0
mohamed.ay19
Mohammed AY ... :
👿
2026-04-08 18:22:35
1
_janainnalima
Janaina Lima :
☺️
2023-04-06 20:50:16
1
mtz_alone
Mtz_🦁 :
😎
2026-01-18 16:41:23
0
dischii_
—͟͞͞★Ris :
🥰
2025-09-30 22:00:50
0
agabezim_
Agabê :
😉
2025-09-07 04:13:57
0
sleepymokka
Nicole :
😭
2025-05-14 13:06:48
0
sal.sm9
سَ :
🥰
2025-06-29 02:31:44
0
love_t101
اެكتئاެب؟، 𝗦َ𝘼َ!𝘿َِ🕷🚸 :
❤❤❤
2025-08-02 20:53:49
0
diegogonalves267
máfia da torra :
👏
2025-05-14 09:18:15
0
rafaelrosask7
GabiCorno444 :
🥵
2025-03-26 13:53:13
0
nikocado6688iir
. :
😔
2025-03-18 03:54:26
0
payan11_
payan.. :
😳
2025-01-16 19:20:11
0
3.bse
O_O :
👏
2026-05-12 11:15:52
0
abdofun2
قرآن كريم :
@maxdesignpro
2024-08-19 19:29:38
0
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Other Videos

Ni dada, compa! #eliasmedina #parati
Ni dada, compa! #eliasmedina #parati


#fraktur patah tulang pergelangan tangan 2 bulan 20 hari,pelan dan bertahap untuk kembali seperti sediakala 🤘
#fraktur patah tulang pergelangan tangan 2 bulan 20 hari,pelan dan bertahap untuk kembali seperti sediakala 🤘


The brachistochrone problem is one of those ideas that completely breaks your intuition. At first glance, the shortest path between two points is obviously a straight line—that’s basic geometry. But when gravity is involved and you’re trying to minimize time instead of distance, that instinct fails hard. The problem was famously posed in 1696 by Johann Bernoulli, and it asked: what curve allows an object to travel from one point to another in the least time under gravity, assuming no friction? Most people guessed straight lines or simple arcs. They were wrong. The surprising answer is a cycloid—the curve traced by a point on the rim of a rolling wheel. This result was independently derived by mathematical giants like Isaac Newton and Gottfried Wilhelm Leibniz, and it became one of the first major problems in the calculus of variations. Here’s the key idea: the fastest path is not about minimizing distance—it’s about optimizing speed over time. A straight line gives you the shortest route, but it doesn’t let you accelerate quickly. A cycloid, on the other hand, drops steeply at the start, letting gravity rapidly increase your speed. After that initial acceleration, the path flattens out, allowing you to carry that high velocity efficiently toward the endpoint. So even though the cycloid is longer than a straight line, you spend more time moving fast, which more than compensates for the extra distance. In contrast, the straight path keeps you slow for too long early on, and you never recover that lost time. This problem fundamentally reshaped how mathematicians think about optimization. It showed that the “best” solution depends entirely on what you’re optimizing for. Distance, time, energy—they all produce different answers. The brachistochrone is a brutal reminder that intuition alone is unreliable when systems involve change, accumulation, and trade-offs.#fyp #viral #math
The brachistochrone problem is one of those ideas that completely breaks your intuition. At first glance, the shortest path between two points is obviously a straight line—that’s basic geometry. But when gravity is involved and you’re trying to minimize time instead of distance, that instinct fails hard. The problem was famously posed in 1696 by Johann Bernoulli, and it asked: what curve allows an object to travel from one point to another in the least time under gravity, assuming no friction? Most people guessed straight lines or simple arcs. They were wrong. The surprising answer is a cycloid—the curve traced by a point on the rim of a rolling wheel. This result was independently derived by mathematical giants like Isaac Newton and Gottfried Wilhelm Leibniz, and it became one of the first major problems in the calculus of variations. Here’s the key idea: the fastest path is not about minimizing distance—it’s about optimizing speed over time. A straight line gives you the shortest route, but it doesn’t let you accelerate quickly. A cycloid, on the other hand, drops steeply at the start, letting gravity rapidly increase your speed. After that initial acceleration, the path flattens out, allowing you to carry that high velocity efficiently toward the endpoint. So even though the cycloid is longer than a straight line, you spend more time moving fast, which more than compensates for the extra distance. In contrast, the straight path keeps you slow for too long early on, and you never recover that lost time. This problem fundamentally reshaped how mathematicians think about optimization. It showed that the “best” solution depends entirely on what you’re optimizing for. Distance, time, energy—they all produce different answers. The brachistochrone is a brutal reminder that intuition alone is unreliable when systems involve change, accumulation, and trade-offs.#fyp #viral #math
Scary Monster #jojo #jjba #JoJosBizarreAdventure #DiegoBrando #epkrin
Scary Monster #jojo #jjba #JoJosBizarreAdventure #DiegoBrando #epkrin

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