@wandesonfranciscosilva: alô Trump 🇺🇲🇧🇷🫡

Pode Salgar E sal 🙅‍♂️
Pode Salgar E sal 🙅‍♂️
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Region: BR
Thursday 16 July 2026 20:57:14 GMT
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pa24058
Patricia de matos silva :
parabéns amigo todos nós brasileiros deveríamos fazer uma videoa assim e marcar o Trump
2026-07-17 04:41:19
51
durval514
durval514 :
pode falar em nome do povo brasileiro amigo. agradecemos muito a vc Luiz Antônio . SOS ... socorro Trump.
2026-07-17 01:23:08
95
user7018600111291
user7018600111291 :
vamos voltar no Flávio Bolsonaro
2026-07-17 09:52:15
54
miguelvilacorta61
Steel heart55 :
Só nos podemos mudar essa situação 👊🇧🇷22👊🇧🇷👊👊 Flávio Bolsonaro 22🇧🇷🇧🇷🇧🇷
2026-07-17 13:40:25
31
josefabioqueirosc
josefabioqueirosc :
dito isso lula novamente
2026-07-17 12:36:57
9
inflavio.rocha
inFlavio Rocha :
parabéns meu amigo já estou te seguindo. fora pt
2026-07-17 10:08:46
35
arthuratu8
arthuratu8 :
EUA SEJAM BEM VINDOS
2026-07-17 02:09:09
32
rael_gomes308
RAEL PRODUÇÃO HENRIQUE PEREIRA :
ENTREGA A CARTA NA EMBAIXADA AMERICANA EM BRASÍLIA, PODE CHEGAR ATE ELE !
2026-07-17 13:53:52
15
mariaa25420611516
mariaa25420611516 :
22.sempre Flávio Bolsonaro livre..Nós brasileiros de bem concordamos ..
2026-07-17 03:38:54
24
rugeni.biao
Rugeni Biao :
parabéns finamente uma alguém tombou coragem
2026-07-17 14:52:05
11
tiaelzinhaoficial
Tia Elzinha :
Q Deus nos proteija desse PT
2026-07-17 04:00:38
19
dys0n1ll1ftj
dys0n1ll1ftj :
Sr tramp precisamos do ser urgente
2026-07-17 12:02:37
7
neidinha6870
Neidinha :
QUEM É O CHEFE? AGORA É 22 NELES 🇧🇷🇧🇷
2026-07-17 15:22:42
9
mlt58690
ML :
concordo plenamente contigo você está sertissimo pra cima tramp
2026-07-16 23:33:43
14
manoelmendes990
manoelmendes990 :
CARA VC TEM MEU RESPEITO.
2026-07-17 12:16:57
10
lourivalmiro
Lourival Miro :
NÃO SÓ VC MEU AMIGO LUIZ ANTÔNIO MAS NÓS BRASILEIRO TAMOS JUNTOS CLAMANDO POR JUSTA JUSTIÇA DONA DE TRUMP SOCORRA O NOSSO PAÍS🇺🇸
2026-07-17 03:13:12
11
nairribeirosilva3
Nair ribeiro silva :
Tamojunto Flávio Bolsonaro
2026-07-17 02:45:11
6
edney.nascimento03
Edney Nascimento :
22
2026-07-17 15:08:58
6
lipe05088
Lipe :
Peço também que chegue ao Presidente Trump.
2026-07-17 10:05:57
20
tot7527
Totó :
Sou nordestino e te dou meus parabéns 👏🏾, o Brasil está nas mãos dos bandidos
2026-07-17 14:01:12
19
marco.lopes446
marco lopes :
Lula é o melhor presidente em quinhentos e vinte seis anos de Brasil e será reeleito pela quarta vez pelo voto popular.
2026-07-17 03:57:58
8
imperiodaflor1
Império da Flor :
obg amigo ,vc falou por nós.
2026-07-17 09:41:13
5
fatima.lemos583
Fatima Lemos :
o Brasil pede socorro Donald Trump ajuda o Brasil obrigado
2026-07-17 03:11:12
20
moisesleal80
Moisés patriota . :
nós brasileiros pedimos socorro do presidente Donald Trump
2026-07-17 10:37:37
10
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nature video of me and my friends celebrating!! (og on x by SolisusNerthus) Graham’s number is an unimaginably large positive integer that was once famous for being the largest number ever used in a serious mathematical proof. It arose in a 1977 proof by mathematicians Ronald Graham and Bruce Rothschild in a branch of mathematics called Ramsey theory, which studies when patterns are guaranteed to appear. The important thing about Graham’s number is not its exact value—it’s far too large to write down in ordinary decimal notation. Here’s why it’s so enormous: * A million is 10^6, or 1 followed by 6 zeros. * A googol is 10^{100}, or 1 followed by 100 zeros. * A googolplex is 10^{(10^{100})}, a 1 followed by a googol zeros. * Graham’s number is incomprehensibly larger than even a googolplex. How is it defined? It uses a notation called Knuth’s up-arrow notation, which represents repeated exponentiation. For example: * 3 \uparrow 3 = 3^3 = 27 * 3 \uparrow\uparrow 3 = 3^{3^3} = 3^{27} * 3 \uparrow\uparrow\uparrow 3 is vastly larger still. Graham’s number is built recursively: * g_1 = 3 \uparrow\uparrow\uparrow\uparrow 3 (four up-arrows) * g_2 = 3 \uparrow^{g_1} 3 (where the number of up-arrows is itself g_1) * g_3 is defined similarly using g_2 * … * After repeating this process 64 times, g_{64} is Graham’s number. Even g_1 is far too large to comprehend. By the time you reach g_2, the number of up-arrows is itself unimaginably huge. Can we write it down? No. There isn’t enough room in the observable universe to write all of its digits. In fact, the number of digits in Graham’s number is itself astronomically larger than the number of atoms in the observable universe. A surprising fact Although Graham’s number is unimaginably large, its last few digits are known. The last 10 digits are: …2464195387 This is possible because modular arithmetic lets mathematicians compute the ending digits without ever calculating the entire number. Is it the biggest number in mathematics? No. There are many numbers defined later that are vastly larger, such as those arising from the TREE(3) function or the Busy Beaver function. Graham’s number is famous not because it’s the largest possible number, but because it was one of the first extremely large numbers to appear naturally in a rigorous mathematical proof. A useful way to think about it is this: if a googol is like a grain of sand, a googolplex is like the Earth, and Graham’s number is so much larger that the comparison itself becomes essentially meaningless. #actor #tcc #🍵🌊🌊 #truecrimecommunity #rampage
nature video of me and my friends celebrating!! (og on x by SolisusNerthus) Graham’s number is an unimaginably large positive integer that was once famous for being the largest number ever used in a serious mathematical proof. It arose in a 1977 proof by mathematicians Ronald Graham and Bruce Rothschild in a branch of mathematics called Ramsey theory, which studies when patterns are guaranteed to appear. The important thing about Graham’s number is not its exact value—it’s far too large to write down in ordinary decimal notation. Here’s why it’s so enormous: * A million is 10^6, or 1 followed by 6 zeros. * A googol is 10^{100}, or 1 followed by 100 zeros. * A googolplex is 10^{(10^{100})}, a 1 followed by a googol zeros. * Graham’s number is incomprehensibly larger than even a googolplex. How is it defined? It uses a notation called Knuth’s up-arrow notation, which represents repeated exponentiation. For example: * 3 \uparrow 3 = 3^3 = 27 * 3 \uparrow\uparrow 3 = 3^{3^3} = 3^{27} * 3 \uparrow\uparrow\uparrow 3 is vastly larger still. Graham’s number is built recursively: * g_1 = 3 \uparrow\uparrow\uparrow\uparrow 3 (four up-arrows) * g_2 = 3 \uparrow^{g_1} 3 (where the number of up-arrows is itself g_1) * g_3 is defined similarly using g_2 * … * After repeating this process 64 times, g_{64} is Graham’s number. Even g_1 is far too large to comprehend. By the time you reach g_2, the number of up-arrows is itself unimaginably huge. Can we write it down? No. There isn’t enough room in the observable universe to write all of its digits. In fact, the number of digits in Graham’s number is itself astronomically larger than the number of atoms in the observable universe. A surprising fact Although Graham’s number is unimaginably large, its last few digits are known. The last 10 digits are: …2464195387 This is possible because modular arithmetic lets mathematicians compute the ending digits without ever calculating the entire number. Is it the biggest number in mathematics? No. There are many numbers defined later that are vastly larger, such as those arising from the TREE(3) function or the Busy Beaver function. Graham’s number is famous not because it’s the largest possible number, but because it was one of the first extremely large numbers to appear naturally in a rigorous mathematical proof. A useful way to think about it is this: if a googol is like a grain of sand, a googolplex is like the Earth, and Graham’s number is so much larger that the comparison itself becomes essentially meaningless. #actor #tcc #🍵🌊🌊 #truecrimecommunity #rampage

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