16744: Arcadian Knight - Thursday, March 29 2018 - 12:35 AM
For Tobi, this is all easy mode. Wonder when it will have a challenge for her.
16745: Centaur - Thursday, March 29 2018 - 1:48 AM
@Arcadian Knight: "[HM45] Prove that when n is an integer, n > 2, the equation x^n + y^n = z^n has no solution in positive integers x, y, z."
16746: Bisected - Thursday, March 29 2018 - 2:32 AM
She's got their numnber.
16747: TheMegax - Thursday, March 29 2018 - 2:54 AM
Never underestimate Tobi!
16749: Saiko - Thursday, March 29 2018 - 3:39 AM
Simplest solutions are the simplest. I hope the guy will find a challenge for himself to shine, because otherwise he will have some mental breakdown.
16750: LordCortist - Thursday, March 29 2018 - 4:13 AM
Oh my god, look at his face on last panel!
His face is totally priceless!
16752: Pablo360 - Thursday, March 29 2018 - 11:29 AM
@Centaur: Not only could she figure it out, I bet she could fit it in the margins of a textbook.
16753: Fuz - Thursday, March 29 2018 - 12:07 PM
...how?
16754: Solaris - Thursday, March 29 2018 - 1:26 PM
Hm, I wonder if if was plugging in the missing numbers. The answer begins with a 2, and the last chunk had a 6000 number missing. Or not--my ability to read the tiny type is severely lacking.
16755: KingDeDeDe11 - Thursday, March 29 2018 - 7:35 PM
Speaking of discord, that discord chat link in the left no longer works.
16756: Whispers of Sorrow - Thursday, March 29 2018 - 9:45 PM
I almost feel sorry for him.
16790: D - Saturday, March 31 2018 - 11:23 PM
@Centaur Either I'm reading it wrong (english is not my first language) or you could simply state Fermant's theorem. As far as I know there is no proof for all cases, but there is a set of separate proofs for all n < 100 000 (if my memory is correct).
17185: Klaus - Thursday, May 10 2018 - 2:19 PM
@D Isn't Fermat's theorem just the statement, which Centaur asked for the proof for?
43167: Syhkane - Wednesday, August 14 2024 - 9:43 PM
Does Tobi take math class in Rauel?
For Tobi, this is all easy mode. Wonder when it will have a challenge for her.
@Arcadian Knight: "[HM45] Prove that when n is an integer, n > 2, the equation x^n + y^n = z^n has no solution in positive integers x, y, z."
She's got their numnber.
Never underestimate Tobi!
Simplest solutions are the simplest. I hope the guy will find a challenge for himself to shine, because otherwise he will have some mental breakdown.
Oh my god, look at his face on last panel!
His face is totally priceless!
@Centaur: Not only could she figure it out, I bet she could fit it in the margins of a textbook.
...how?
Hm, I wonder if if was plugging in the missing numbers. The answer begins with a 2, and the last chunk had a 6000 number missing. Or not--my ability to read the tiny type is severely lacking.
Speaking of discord, that discord chat link in the left no longer works.
I almost feel sorry for him.
@Centaur Either I'm reading it wrong (english is not my first language) or you could simply state Fermant's theorem. As far as I know there is no proof for all cases, but there is a set of separate proofs for all n < 100 000 (if my memory is correct).
@D Isn't Fermat's theorem just the statement, which Centaur asked for the proof for?
It's just the missing primes typed up in a row.