I have seen this rotation trick at least FOUR times on AMC/AIME historical problems. Since this is Problem 24, it only takes me 24 seconds (especially I have seen it before). No joke.
Try the question, the solution will give 5 results but 2 of them would be Pie by 2 and 3 pie by 2 which would give not defined answers so actual solution should be 3
SREYESH SHRIVASTAV The apps page doesn’t say that any solutions appear on the asymptotic lines. They’re saying that there’s a solution strictly between every pair of asymptotic lines.
There was a question in which we had to find the diagonal to nearest approximation . I think answer is 0.4. question was Q16 i think Pls tell and check
life is too short for the law of cosines
quote of the year: life is too short for the law of cosines.
I knew this would be top comment
"Life is too short for the law of cosines
" - Richard Rusczyk, 2020
FAX
bro, this man just made one of the hardest amc problems seem like cakewalk
ummmm.....
in 30 years this will be a mathcounts chapter CDR problem
Facts
I have seen this rotation trick at least FOUR times on AMC/AIME historical problems. Since this is Problem 24, it only takes me 24 seconds (especially I have seen it before). No joke.
I know this from coffin problems. And I’m pretty sure there was a similar question on a previous AIME exam.
Yes. He actually made a video on an extremely similar problem in 2002 AIME. I think it was number 13. Look at his channel for it.
FirstName LastName
2012, yes. It was formulated differently.
man you’re funny lol I didn’t expect this video to be funny but I’m laughing
this AMC 12 problem is easy for the position in the test
I have a doubt in problem 9 in 12A. The solution by aops says 5 but 2 solutions would be actually asymptotes and actual solution should be 3.
explain?
Try the question, the solution will give 5 results but 2 of them would be Pie by 2 and 3 pie by 2 which would give not defined answers so actual solution should be 3
SREYESH SHRIVASTAV
The apps page doesn’t say that any solutions appear on the asymptotic lines. They’re saying that there’s a solution strictly between every pair of asymptotic lines.
There was a question in which we had to find the diagonal to nearest approximation . I think answer is 0.4. question was Q16 i think
Pls tell and check
yeah I got .4 for one question. who is the other question where the other choices were .3,.5, .6, and .7
Yeah, that's the one
1:07
"Triangles don't work like that''.
Where is 23?
Or at 3:04, use law of CO’s to solve for s using 1,2 and angle 120
life’s too short for the law of cosines!
@@pr4_kp Your reply has more likes than the comment lol
@@pr4_kp It's actually too long. It would be easier lol.
Please do tell the expected cut off
Muito bom!!!
Got hard math problems? Better Call Saul!
nice