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k a My Retirement & New Leadership at AoPS
rrusczyk   1571
N Mar 26, 2025 by SmartGroot
I write today to announce my retirement as CEO from Art of Problem Solving. When I founded AoPS 22 years ago, I never imagined that we would reach so many students and families, or that we would find so many channels through which we discover, inspire, and train the great problem solvers of the next generation. I am very proud of all we have accomplished and I’m thankful for the many supporters who provided inspiration and encouragement along the way. I'm particularly grateful to all of the wonderful members of the AoPS Community!

I’m delighted to introduce our new leaders - Ben Kornell and Andrew Sutherland. Ben has extensive experience in education and edtech prior to joining AoPS as my successor as CEO, including starting like I did as a classroom teacher. He has a deep understanding of the value of our work because he’s an AoPS parent! Meanwhile, Andrew and I have common roots as founders of education companies; he launched Quizlet at age 15! His journey from founder to MIT to technology and product leader as our Chief Product Officer traces a pathway many of our students will follow in the years to come.

Thank you again for your support for Art of Problem Solving and we look forward to working with millions more wonderful problem solvers in the years to come.

And special thanks to all of the amazing AoPS team members who have helped build AoPS. We’ve come a long way from here:IMAGE
1571 replies
rrusczyk
Mar 24, 2025
SmartGroot
Mar 26, 2025
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k a March Highlights and 2025 AoPS Online Class Information
jlacosta   0
Mar 2, 2025
March is the month for State MATHCOUNTS competitions! Kudos to everyone who participated in their local chapter competitions and best of luck to all going to State! Join us on March 11th for a Math Jam devoted to our favorite Chapter competition problems! Are you interested in training for MATHCOUNTS? Be sure to check out our AMC 8/MATHCOUNTS Basics and Advanced courses.

Are you ready to level up with Olympiad training? Registration is open with early bird pricing available for our WOOT programs: MathWOOT (Levels 1 and 2), CodeWOOT, PhysicsWOOT, and ChemWOOT. What is WOOT? WOOT stands for Worldwide Online Olympiad Training and is a 7-month high school math Olympiad preparation and testing program that brings together many of the best students from around the world to learn Olympiad problem solving skills. Classes begin in September!

Do you have plans this summer? There are so many options to fit your schedule and goals whether attending a summer camp or taking online classes, it can be a great break from the routine of the school year. Check out our summer courses at AoPS Online, or if you want a math or language arts class that doesn’t have homework, but is an enriching summer experience, our AoPS Virtual Campus summer camps may be just the ticket! We are expanding our locations for our AoPS Academies across the country with 15 locations so far and new campuses opening in Saratoga CA, Johns Creek GA, and the Upper West Side NY. Check out this page for summer camp information.

Be sure to mark your calendars for the following events:
[list][*]March 5th (Wednesday), 4:30pm PT/7:30pm ET, HCSSiM Math Jam 2025. Amber Verser, Assistant Director of the Hampshire College Summer Studies in Mathematics, will host an information session about HCSSiM, a summer program for high school students.
[*]March 6th (Thursday), 4:00pm PT/7:00pm ET, Free Webinar on Math Competitions from elementary through high school. Join us for an enlightening session that demystifies the world of math competitions and helps you make informed decisions about your contest journey.
[*]March 11th (Tuesday), 4:30pm PT/7:30pm ET, 2025 MATHCOUNTS Chapter Discussion MATH JAM. AoPS instructors will discuss some of their favorite problems from the MATHCOUNTS Chapter Competition. All are welcome!
[*]March 13th (Thursday), 4:00pm PT/7:00pm ET, Free Webinar about Summer Camps at the Virtual Campus. Transform your summer into an unforgettable learning adventure! From elementary through high school, we offer dynamic summer camps featuring topics in mathematics, language arts, and competition preparation - all designed to fit your schedule and ignite your passion for learning.[/list]
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0 replies
jlacosta
Mar 2, 2025
0 replies
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k i Adding contests to the Contest Collections
dcouchman   1
N Apr 5, 2023 by v_Enhance
Want to help AoPS remain a valuable Olympiad resource? Help us add contests to AoPS's Contest Collections.

Find instructions and a list of contests to add here: https://artofproblemsolving.com/community/c40244h1064480_contests_to_add
1 reply
dcouchman
Sep 9, 2019
v_Enhance
Apr 5, 2023
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k i Zero tolerance
ZetaX   49
N May 4, 2019 by NoDealsHere
Source: Use your common sense! (enough is enough)
Some users don't want to learn, some other simply ignore advises.
But please follow the following guideline:


To make it short: ALWAYS USE YOUR COMMON SENSE IF POSTING!
If you don't have common sense, don't post.


More specifically:

For new threads:


a) Good, meaningful title:
The title has to say what the problem is about in best way possible.
If that title occured already, it's definitely bad. And contest names aren't good either.
That's in fact a requirement for being able to search old problems.

Examples:
Bad titles:
- "Hard"/"Medium"/"Easy" (if you find it so cool how hard/easy it is, tell it in the post and use a title that tells us the problem)
- "Number Theory" (hey guy, guess why this forum's named that way¿ and is it the only such problem on earth¿)
- "Fibonacci" (there are millions of Fibonacci problems out there, all posted and named the same...)
- "Chinese TST 2003" (does this say anything about the problem¿)
Good titles:
- "On divisors of a³+2b³+4c³-6abc"
- "Number of solutions to x²+y²=6z²"
- "Fibonacci numbers are never squares"


b) Use search function:
Before posting a "new" problem spend at least two, better five, minutes to look if this problem was posted before. If it was, don't repost it. If you have anything important to say on topic, post it in one of the older threads.
If the thread is locked cause of this, use search function.

Update (by Amir Hossein). The best way to search for two keywords in AoPS is to input
[code]+"first keyword" +"second keyword"[/code]
so that any post containing both strings "first word" and "second form".


c) Good problem statement:
Some recent really bad post was:
[quote]$lim_{n\to 1}^{+\infty}\frac{1}{n}-lnn$[/quote]
It contains no question and no answer.
If you do this, too, you are on the best way to get your thread deleted. Write everything clearly, define where your variables come from (and define the "natural" numbers if used). Additionally read your post at least twice before submitting. After you sent it, read it again and use the Edit-Button if necessary to correct errors.


For answers to already existing threads:


d) Of any interest and with content:
Don't post things that are more trivial than completely obvious. For example, if the question is to solve $x^{3}+y^{3}=z^{3}$, do not answer with "$x=y=z=0$ is a solution" only. Either you post any kind of proof or at least something unexpected (like "$x=1337, y=481, z=42$ is the smallest solution). Someone that does not see that $x=y=z=0$ is a solution of the above without your post is completely wrong here, this is an IMO-level forum.
Similar, posting "I have solved this problem" but not posting anything else is not welcome; it even looks that you just want to show off what a genius you are.

e) Well written and checked answers:
Like c) for new threads, check your solutions at least twice for mistakes. And after sending, read it again and use the Edit-Button if necessary to correct errors.



To repeat it: ALWAYS USE YOUR COMMON SENSE IF POSTING!


Everything definitely out of range of common sense will be locked or deleted (exept for new users having less than about 42 posts, they are newbies and need/get some time to learn).

The above rules will be applied from next monday (5. march of 2007).
Feel free to discuss on this here.
49 replies
ZetaX
Feb 27, 2007
NoDealsHere
May 4, 2019
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mathcounts state score thread
Soupboy0   36
N 13 minutes ago by snc_2022
\begin{table}[]
\begin{tabular}{llllll} Username & Score & Sprint & Target & Nats? & Sillies \\ Soupboy0 & 40 & 24 & 16 & yes & 6 \\ & & & & & \\ & & & & & \end{tabular}\end{table}
36 replies
Soupboy0
Yesterday at 2:53 PM
snc_2022
13 minutes ago
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mathcounts state discussion
Soupboy0   38
N 31 minutes ago by Bummer12345
les goo its finally april
38 replies
Soupboy0
Yesterday at 5:00 AM
Bummer12345
31 minutes ago
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Prove that there are no tuples $(x, y, z)$ sastifying $x^2+y^2-z^2=xyz-2$
Anabcde   0
40 minutes ago
Prove that there are no tuples $(x, y, z) \in \mathbb{Z}^3$ sastifying $x^2+y^2-z^2=xyz-2$
0 replies
1 viewing
Anabcde
40 minutes ago
0 replies
J
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Finding pairs of complex numbers with a certain property
Ciobi_   0
41 minutes ago
Source: Romania NMO 2025 10.4
Find all pairs of complex numbers $(z,w) \in \mathbb{C}^2$ such that the relation \[|z^{2n}+z^nw^n+w^{2n} | = 2^{2n}+2^n+1 \]holds for all positive integers $n$.
0 replies
Ciobi_
41 minutes ago
0 replies
J
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Writing x^k as a product of injective functions
Ciobi_   0
an hour ago
Source: Romania NMO 2025 10.3
Define the functions $g_k \colon \mathbb{Z} \to \mathbb{Z}$, $g_k(x) = x^k$, where $k$ is a positive integer.
Find the set $M_k$ of positive integers $n$ for which there exist injective functions $f_1,f_2, \dots ,f_n \colon \mathbb{Z} \to \mathbb{Z}$ such that $g_k=f_1\cdot f_2 \cdot \ldots \cdot f_n$.
(Here, $\cdot$ denotes component-wise function multiplication)
0 replies
Ciobi_
an hour ago
0 replies
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2025 MATHCOUNTS State Hub
SirAppel   126
N an hour ago by BS2012
Previous Years' "Hubs": (2022) (2023) (2024)Please Read

Now that it's April and we're allowed to discuss, and no one else has made this yet ...
[list=disc]
[*] CA: 43 (45 44 43 43 43 42 42 41 41 41)
[*] NJ: 43 (45 44 44 43 39 42 40 40 39 38) *
[*] NY: 42 (43 42 42 42 41 40)
[*] TX: 42 (43 43 43 42 42 40 40 38 38 38)
[*] MA: 41 (45 43 42 41)
[*] WA: 41 (41 45 42 41 41 41 41 41 41 40) *
[*] FL: 39 (42 41 40 39 38 37 37)
[*] IN: 39 (41 40 40 39 ?? 35)
[*] NC: 39 (42 42 41 39)
[*] IL: 38 (41 40 39 38 38 38)
[*] OR: 38 (44 ?? 38 38)
[*] PA: 38 (41 40 40 38 38 37 36 36 34 34) *
[*] MD: 37 (43 39 39 37 37 37)
[*] CT: 36 (44 39? 38 36 34 34 34 34)
[*] MI: 36 (39 41 41 36 37 37 36 36 36 36) *
[*] MN: 36 (40 36 36 36 35 35 35 34)
[*] CO: 35 (41 37 37 35 35 35 ?? 31 31 30) *
[*] GA: 35 (38 37 36 35 34 34 34 34 34 33)
[*] OH: 35 (41 37 36 35)
[*] AR: 34 (46 45 35 34 33 31 31 31 29 29)
[*] WI: 34 (40 37 37 34 35 30 28 29 29 29) *
[*] NH: 31 (42 35 33 31 30)
[*] DE: 30 (34 33 32 30 30 29 28 27 26? 24)
[*] SC: 30 (33 33 31 30)
[*] IA: 29 (33 30 ?? 29 29 29 29 29 29 29 29 29) *
[*] RI: 29? (36 ?? ?? ??) *
[*] NE: 28 (34 30 28 28 27 27 26 26 25 25)
[*] SD: 22 (30 29 24 22 22 22 21 21 20 20)
[/list]

* means that CDR is official in that state.

Notes

For those asking about the removal of the tiers, I'd like to quote Jason himself:
[quote=peace09]
learn from my mistakes
[/quote]

Help contribute by sharing your state's cutoffs!
As per last year's guidelines, refrain from problem discussion until their official release on the MATHCOUNTS website.
126 replies
SirAppel
Yesterday at 12:22 PM
BS2012
an hour ago
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2 var inquality
sqing   0
an hour ago
Source: Own
Let $ a,b \ge 0 $ and $ a+b=2. $ Prove that
$$\sqrt{ a^2+b+6}+\sqrt{ b^2+a+6}\leq 8\sqrt{\frac{2- ab}{ab+1}} $$$$\sqrt{2a^2+b+1}+\sqrt{2b^2+a+1}\leq 4\sqrt{\frac{5-2ab}{ab+2}} $$$$\sqrt{2a^2+b}+\sqrt{2b^2+a}\leq 2\sqrt{\frac{3(5-2ab)}{ab+2}} $$
0 replies
sqing
an hour ago
0 replies
J
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Combi geo with connected points
Ciobi_   0
an hour ago
Source: Romania NMO 2025 10.2
Let $n$ be a positive integer. For a set of points in the plane $M$, we call $2$ distinct points $A,B \in M$ connected if the line $AB$ contains exactly $n+1$ points from $M$.
Find the minimum value of a positive integer $m$ such that there exists a set $M$ of $m$ points in the plane with the property that any point $A \in M$ is connected with exactly $2n$ other points from $M$.
0 replies
Ciobi_
an hour ago
0 replies
J
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Classic complex number geo
Ciobi_   0
an hour ago
Source: Romania NMO 2025 10.1
Let $M$ be a point in the plane, distinct from the vertices of $\triangle ABC$. Consider $N,P,Q$ the reflections of $M$ with respect to lines $AB, BC$ and $CA$, in this order.
a) Prove that $N, P ,Q$ are collinear if and only if $M$ lies on the circumcircle of $\triangle ABC$.
b) If $M$ does not lie on the circumcircle of $\triangle ABC$ and the centroids of triangles $\triangle ABC$ and $\triangle NPQ$ coincide, prove that $\triangle ABC$ is equilateral.
0 replies
Ciobi_
an hour ago
0 replies
J
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Is this FE solvable?
Mathdreams   1
N an hour ago by pco
Find all $f:\mathbb{R} \rightarrow \mathbb{R}$ such that \[f(2x+y) + f(x+f(2y)) = f(x)f(y) - xy\]for all reals $x$ and $y$.
1 reply
Mathdreams
Yesterday at 6:58 PM
pco
an hour ago
J
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Proving 2 sequences are bounded above
Ciobi_   0
an hour ago
Source: Romania NMO 2025 9.4
Let $m \geq 2$ be a fixed positive integer, and $(a_n)_{n\geq 1}$ be a sequence of nonnegative real numbers such that, for all $n\geq 1$, we have that $a_{n+1} \leq a_n - a_{mn}$.
a) Prove that the sequence $b_n = \sum_{k=1}^{n} a_k$ is bounded above.
b) Prove that the sequence $c_n = \sum_{k=1}^{n} k^2 a_k$ is bounded above.
0 replies
Ciobi_
an hour ago
0 replies
J
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One nice inequlity 1
prof.   1
N an hour ago by sqing
If $a,b,c$ are positiv real number, such that $a^2+b^2+c^2=3abc$ prove inequality $$\frac{a}{b^2c^2}+\frac{b}{c^2a^2}+\frac{c}{a^2b^2}\ge\frac{9}{a+b+c}.$$
1 reply
prof.
2 hours ago
sqing
an hour ago
J
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Bounding number of solutions for floor function equation
Ciobi_   0
an hour ago
Source: Romania NMO 2025 9.3
Let $n \geq 2$ be a positive integer. Consider the following equation: \[ \{x\}+\{2x\}+ \dots + \{nx\} = \lfloor x \rfloor + \lfloor 2x \rfloor + \dots + \lfloor 2nx \rfloor\]a) For $n=2$, solve the given equation in $\mathbb{R}$.
b) Prove that, for any $n \geq 2$, the equation has at most $2$ real solutions.
0 replies
1 viewing
Ciobi_
an hour ago
0 replies
J
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9 AMC 8 Scores
ChromeRaptor777   94
N 2 hours ago by K1mchi_
As far as I'm certain, I think all AMC8 scores are already out. Vote above.
94 replies
ChromeRaptor777
Apr 1, 2022
K1mchi_
2 hours ago
J
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J
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k Learn how to learn
BOGTRO   28
N May 4, 2015 by thatindiankid55
About a month ago I was PMed by a member, asking for advice as to how to prepare for MATHCOUNTS. I (strangely) get a lot of these types of PMs, but this one was slightly different. Whereas normally I could answer something along the lines of "read Volume 1, do practice tests, profit", this user was complaining that despite having rigorously worked through Volume 1 and CMMS (I still don't know what this is, but it's implied to be a book), he was still scoring only in the low 20s on sprints.

To some extent, I was able to relate. Back in my MATHCOUNTS days, I was doing loads of practice tests, learning new techniques to shave off precious seconds, and even practicing hitting a buzzer quickly. But my results only marginally improved. Gradually I understood that he was facing the exact same problem I was - although we were doing plenty of work, we were doing it in the wrong way.

After some thought, I formulated a long but fairly detailed response. Given that state-national season is rolling around, and with it the usual abundance of "how do I prepare" threads, I'm reproducing it below (with some minor edits). I referenced sprint several times because that was the specific complaint by the user, but obviously you can replace "sprint" with "target" or even "countdown", or any combination thereof.
________________________________________________________________________________________________________________________
You first need to determine why it is that you're getting low scores on sprint. Are you running out of time? Making stupid mistakes? Bad at computation? Or do you honestly not know how to do the problems? The former three are rectified with simply a lot of (effective) practice, where I say "effective" because simply blazing through problems, checking your score, and moving on is not going to help you very much. You need to be critically analyzing almost every problem - not just the ones you got wrong. Sure, you don't need to think too hard about your process on #2, but questions that take you longer than you would like, you get wrong, or you do in a "bashy" way need to be reviewed.

Essentially, you should be following something similar to the following process. Of course, this is not something that is going to work for 100% of people. The point here is not that you should be following these guidelines like a bible, but that you need to think about how to get the maximum benefit out of each practice test you take. You may very well find that the below system doesn't work for you (though you should at least give it a chance - it may seem "boring" at first, but after some time you'll be going through it like it's second nature and learning excellent habits along the way), in which case you should come up with an alteration that works for you. If (or more likely when) you choose to develop your own preparation system, keep in mind that the basic elements should be present - rigorous review of problems you got wrong, self-reflection on why you got them wrong, and so on.
[list]
[*] Take any MATHCOUNTS sprint round under contest conditions. It doesn't really matter which one you take, though it should be fairly recent for best results. When you're done, score with a simple checkmark or X system - don't look through the solutions immediately. Make a note of the problems that took you a long time, even if you got them correct.
[*] Without timing yourself (though you shouldn't spend more than 15 minutes or so), solve the problems that you either got wrong or didn't answer during the test. This will partially tell you if you're getting questions wrong because of time constraints or because you don't know the material.
[*] At this point you should have 4 separate categories of problems:
[list]
[*] Completely correct - don't worry about these at all. Though there is some benefit to looking these over, they are significantly less important than all the other questions.
[*] Correct, but took you a long time. Identify why it took you a long time - and if it matters. A problem taking you 2-3 minutes may sound like a killer, but in general if you only have a couple of these questions that's completely fine. Even if there's only one "timesink", you should be looking through alternate solutions to doing these problems. I find that problems that usually cause timesinks are either geometry problems that are semi-direct applications of similar triangles (which are naturally fairly easy to coordinate bash or something similarly slow, but this may take a while) or counting problems where you just listed out the possibilities and counted them up. Unfortunately, many MATHCOUNTS problems have this as their intended solution, so there's not a great deal you can do about those. However, even though there may not be a cleaner solution, minute steps during your bashing may prove important. And in the event that even with optimizations the problem will still take 2-3 minutes, you may want to just skip it altogether even if you know exactly how to do it.
[*] Incorrect (or blank), but you solved it after the test. These are questions that you know how to do, but you ran out of time doing. Important is to determine how long it took you to solve these questions. If you solved 2 questions in 30 seconds each after the test, clearly that's worse than solving one problem in the second category. These second and third categories are quite similar and should be evaluated against each other (a quite reasonable rule of thumb is to save any counting question that you don't see how to do within ~10 seconds for later).
[*] Incorrect, and you couldn't solve it after the test. Look up the solution, searching (or even posting) on AoPS if necessary (which you should likely do anyway, as MATHCOUNTS official solutions are often horrendous). If it's a situation where you just forgot something that you really knew, it's easy to pass this off as a fluke and move on. However, this is a grave mistake. Perhaps if it happens once or twice in an otherwise good practice, you can kind of gloss over it. But make a note of it anyway. Whenever you hit two problems in the same general category that you didn't solve (keep your categories broad, but not too broad. "Geometry" is too broad a category, while "trignometric relations in geometric models of algebraic inequalities" is too specific to be helpful. Something like "similar triangles" or "factoring" is a much better type of category), you should immediately stop your practicing and look up the relevant sections in whatever book you have (e.g. Volume 1, or whatever CMMS is, or even just an internet search, etc.). Don't move on until you are confident in that area. By "confident", I don't mean that you can approach these kinds of problems once in a while. I mean that once you identify a question as being in your category, you should be able to solve it relatively quickly at least 75% of the time.[/list]
[*] File away every single problem that you got wrong. Categorize these as either "I solved this afterwards" (include the time it took you to solve it - approximate is fine) or "I didn't solve this afterwards". You will need these later. Take a break - read a book, play some FTW, go outside, play League of Legends, whatever floats your boat. There's not much value in overloading yourself, especially so close to chapter. If you're feeling particularly ambitious, review a chapter on a topic that you have trouble with. There is no point to reviewing topics you already can solve problems in regularly.
[*] At the end of the week, collect every single problem on your "incorrect problems list". If you're going through a test a day, these shouldn't number more than 50. Do these like you would a test under contest conditions. Compare your results to your incorrect problems paper (how long it took you to solve the problems, and whether you got them correct). The fact that you've seen the problems already should compensate for the fact that you need to work quicker. If you get a problem wrong, do the same process - don't time yourself while solving all of the remaining problems.
[*] If you got the same problem wrong twice, there are 3 scenarios:
[list]
[*] You got it wrong both times, but finished it after the test both times. This speaks to your (lack of?) time management, something that comes much more naturally with practice. Keep in mind that MATHCOUNTS really only tests a very small amount of concepts (relatively speaking), so working through old problems virtually guarantees that almost all MATHCOUNTS problems will already be more or less familiar to you on test day.
[*] You couldn't solve it at all the first time, but solved it after the test the second time. This is improvement, so it's perfectly fine.
[*] You didn't solve it the second time around. This means that you don't understand the concept - back to the books. [/list]
[*] Take all the problems you got correct (during the test) off your "incorrect problems" sheet, and continue to repeat the process from the top.[/list]

This may seem like quite a bit of work when typed up here, but in reality it's not. Instead of perpetuating the cycle of "do a practice test, score it, move on, read some books in some disorganized fashion, take another practice test, hope for improvement" (not even necessarily in that order, which is even more problematic), instead we optimize this routine by taking a single practice test a day and making sure that we get everything possible out of it. There are only so many tests, and a frequent complaint is that people have run out of old contests to do. While this may be true, this most likely means that they're not doing the tests properly. A single test with the time taken to reflect, organize, and perform a targeted review is significantly more beneficial than 5 tests taken without a goal in mind.

All in all, this should take at most a little over an hour per day (a little more at the end of the week). You are, of course, welcome to do more, but there's a sort of diminishing returns law past a certain point. Devoting a great deal of time to MATHCOUNTS is going to seem like a serious mistake in hindsight (I was among the most guilty of this), especially if you realize you were spending time incredibly inefficiently. I won't give an exact quote here (simply because I don't remember it and a quick search doesn't turn it up), but one MATHCOUNTS winner (Albert Ni?) said something along the lines of
[quote]
I knew that I wouldn't be the smartest mathlete competing. But I could, quite realistically, be the hardest working one [...][/quote]
In MATHCOUNTS, that's all that's required. But quantifying the term "hard work" is necessary - someone who is pushing a boulder from point A 25% of the way to point B is doing a lot of work for very little benefit, while someone who uses a truck to carry the same boulder to point B is doing significantly less work for significantly more benefit. Perhaps as a more accurate analogy, take two people in a shooting contest. As soon as the whistle blows, person A starts shooting haphazardly at his target, hitting it once in a while but constantly having to reload. Person B, on the other hand, takes his time, lines up his shots, and hits the target with deadly accuracy. This is very similar to MATHCOUNTS. Person A is blowing through his material quickly, getting little benefit overall, but naturally with the experience of shooting comes some slight improvement. On the other side of things, person B is taking the time to think about how best to use his limited resources to improve as best he can. Sure, he starts off a bit slower, and at the end of the day he might still have some ammunition left unused, but overall he hits the target more. The first approach is popular because it's very easy to feel like you're doing something - after all, if you're spending 4 hours a day on practice MATHCOUNTS tests, you're outworking everyone else, right? Don't fall into this trap. Line up your shots.
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BOGTRO
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BOGTRO
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BOGTRO
#1 Mar 4, 2014, 4:41 AM • 220 Y
Y by chezbgone, kad2361, tongzhao, doodlemaster7, mathtastic, MathematicsOfPi, MathSlayer4444, kj2002, tmathman, AwesomeToad, AkshajK, BitterGummy, iNomOnCountdown, droid347, forthegreatergood, TheMaskedMagician, bestwillcui1, ChickenOnRage, CornSaltButter, Einstein314, Royalreter1, mathman523, 54math, WolfOfAtlantis, NextEinstein, knittingfrenzy18, chemistrygirl, El_Ectric, aquakitty11, banonymous322, nsun48, minimario, MSTang, Binomial-theorem, r31415, stan23456, Erickarl, tennis1729, jeffchen, bzc11, hwl0304, howie2000, NormanWho, vmaddur, RadioActive, Priyanka23, csmath, bestmath, N0NY0, sturdyoak2012, Not_a_Username, sss04, EpicSkills32, dantx5, FlakeLCR, football017, PiDude314, doglitter, hesa57, abishek99, ImpossibleCube, mathonator, ThatMathyPotato, jsheen0516, KateL, zmyshatlp, dipenm, Th3Numb3rThr33, MathDino609, laegolas, MathLearner01, Aopser101, cellogirl12, mathmagic12, Josephine, mathwizard888, theskyisthelimit, 2015WOOTer, LadyKn1ght, purpleapples, Iamteehee, SMOJ, joey8189681, ninjasrule34, etude, DrMath, SHARKYBOY, WorstIreliaNA, spartan168, C-bass, abean077, thatindiankid55, Mudkipswims42, dhusb45, SirCalcsALot, Crayon9017, mathisawesome2169, ThisIsASentence, CaptainFlint, celestialphoenix3768, jam10307, swagchicken, Wave-Particle, atmchallenge, thinkinavi, monkeyl, Eugenis, Mathaddict11, math101010, champion999, checkmatetang, mathwhiz16, yrnsmurf, Ancy, rd3600, adihaya, thegabster37, hy2015, rlybd5, m1234567, techguy2, Mathguy5837, claserken, graviton2, Intellectuality123, Samchooo, shootingstar8, minesnooper, 62861, innumerateguy, MathArt4, Mathisfun04, First, psa, Aspen, Snowleopard01, pinetree1, brianapa, lz1000, AetherAce, illogical_21, rcv, IceParrot, GeneralCobra19, eisirrational, Iamawesome1, Ultroid999OCPN, PizzaLover73, rattlesnake16, divijleisha, WannabeCharmander, proshi, pretzel, Sixteen, theguamian, pad, MasterProblemSolver123, mathlogician, mathleticguyyy, Jiangnan, littlepiglet4428, Blossomstream, sriraamster, Jupiturn236, snow_monkey, shankarmath, Bobthemath, smartninja2000, usernameyourself, Kingofmath101, Myfsooj, Williamgolly, bingo2019, OliverA, hannahptl, cubical, Zorger74, Atpar, floof421, VipMath, truffle, OlympusHero, friend5, SuperJJ, DofL, superagh, RaymondZhu, FIREDRAGONMATH16, math31415926535, ThisUsernameIsTaken, rayfish, ASweatyAsianBoie, AOPqghj, TsunamiStorm08, J55406, DankBasher619, D1r, lovematch13, Adventure10, Awaycappybara, Andyluo, and 19 other users
About a month ago I was PMed by a member, asking for advice as to how to prepare for MATHCOUNTS. I (strangely) get a lot of these types of PMs, but this one was slightly different. Whereas normally I could answer something along the lines of "read Volume 1, do practice tests, profit", this user was complaining that despite having rigorously worked through Volume 1 and CMMS (I still don't know what this is, but it's implied to be a book), he was still scoring only in the low 20s on sprints.

To some extent, I was able to relate. Back in my MATHCOUNTS days, I was doing loads of practice tests, learning new techniques to shave off precious seconds, and even practicing hitting a buzzer quickly. But my results only marginally improved. Gradually I understood that he was facing the exact same problem I was - although we were doing plenty of work, we were doing it in the wrong way.

After some thought, I formulated a long but fairly detailed response. Given that state-national season is rolling around, and with it the usual abundance of "how do I prepare" threads, I'm reproducing it below (with some minor edits). I referenced sprint several times because that was the specific complaint by the user, but obviously you can replace "sprint" with "target" or even "countdown", or any combination thereof.
________________________________________________________________________________________________________________________
You first need to determine why it is that you're getting low scores on sprint. Are you running out of time? Making stupid mistakes? Bad at computation? Or do you honestly not know how to do the problems? The former three are rectified with simply a lot of (effective) practice, where I say "effective" because simply blazing through problems, checking your score, and moving on is not going to help you very much. You need to be critically analyzing almost every problem - not just the ones you got wrong. Sure, you don't need to think too hard about your process on #2, but questions that take you longer than you would like, you get wrong, or you do in a "bashy" way need to be reviewed.

Essentially, you should be following something similar to the following process. Of course, this is not something that is going to work for 100% of people. The point here is not that you should be following these guidelines like a bible, but that you need to think about how to get the maximum benefit out of each practice test you take. You may very well find that the below system doesn't work for you (though you should at least give it a chance - it may seem "boring" at first, but after some time you'll be going through it like it's second nature and learning excellent habits along the way), in which case you should come up with an alteration that works for you. If (or more likely when) you choose to develop your own preparation system, keep in mind that the basic elements should be present - rigorous review of problems you got wrong, self-reflection on why you got them wrong, and so on.
  • Take any MATHCOUNTS sprint round under contest conditions. It doesn't really matter which one you take, though it should be fairly recent for best results. When you're done, score with a simple checkmark or X system - don't look through the solutions immediately. Make a note of the problems that took you a long time, even if you got them correct.
  • Without timing yourself (though you shouldn't spend more than 15 minutes or so), solve the problems that you either got wrong or didn't answer during the test. This will partially tell you if you're getting questions wrong because of time constraints or because you don't know the material.
  • At this point you should have 4 separate categories of problems:
    • Completely correct - don't worry about these at all. Though there is some benefit to looking these over, they are significantly less important than all the other questions.
    • Correct, but took you a long time. Identify why it took you a long time - and if it matters. A problem taking you 2-3 minutes may sound like a killer, but in general if you only have a couple of these questions that's completely fine. Even if there's only one "timesink", you should be looking through alternate solutions to doing these problems. I find that problems that usually cause timesinks are either geometry problems that are semi-direct applications of similar triangles (which are naturally fairly easy to coordinate bash or something similarly slow, but this may take a while) or counting problems where you just listed out the possibilities and counted them up. Unfortunately, many MATHCOUNTS problems have this as their intended solution, so there's not a great deal you can do about those. However, even though there may not be a cleaner solution, minute steps during your bashing may prove important. And in the event that even with optimizations the problem will still take 2-3 minutes, you may want to just skip it altogether even if you know exactly how to do it.
    • Incorrect (or blank), but you solved it after the test. These are questions that you know how to do, but you ran out of time doing. Important is to determine how long it took you to solve these questions. If you solved 2 questions in 30 seconds each after the test, clearly that's worse than solving one problem in the second category. These second and third categories are quite similar and should be evaluated against each other (a quite reasonable rule of thumb is to save any counting question that you don't see how to do within ~10 seconds for later).
    • Incorrect, and you couldn't solve it after the test. Look up the solution, searching (or even posting) on AoPS if necessary (which you should likely do anyway, as MATHCOUNTS official solutions are often horrendous). If it's a situation where you just forgot something that you really knew, it's easy to pass this off as a fluke and move on. However, this is a grave mistake. Perhaps if it happens once or twice in an otherwise good practice, you can kind of gloss over it. But make a note of it anyway. Whenever you hit two problems in the same general category that you didn't solve (keep your categories broad, but not too broad. "Geometry" is too broad a category, while "trignometric relations in geometric models of algebraic inequalities" is too specific to be helpful. Something like "similar triangles" or "factoring" is a much better type of category), you should immediately stop your practicing and look up the relevant sections in whatever book you have (e.g. Volume 1, or whatever CMMS is, or even just an internet search, etc.). Don't move on until you are confident in that area. By "confident", I don't mean that you can approach these kinds of problems once in a while. I mean that once you identify a question as being in your category, you should be able to solve it relatively quickly at least 75% of the time.
  • File away every single problem that you got wrong. Categorize these as either "I solved this afterwards" (include the time it took you to solve it - approximate is fine) or "I didn't solve this afterwards". You will need these later. Take a break - read a book, play some FTW, go outside, play League of Legends, whatever floats your boat. There's not much value in overloading yourself, especially so close to chapter. If you're feeling particularly ambitious, review a chapter on a topic that you have trouble with. There is no point to reviewing topics you already can solve problems in regularly.
  • At the end of the week, collect every single problem on your "incorrect problems list". If you're going through a test a day, these shouldn't number more than 50. Do these like you would a test under contest conditions. Compare your results to your incorrect problems paper (how long it took you to solve the problems, and whether you got them correct). The fact that you've seen the problems already should compensate for the fact that you need to work quicker. If you get a problem wrong, do the same process - don't time yourself while solving all of the remaining problems.
  • If you got the same problem wrong twice, there are 3 scenarios:
    • You got it wrong both times, but finished it after the test both times. This speaks to your (lack of?) time management, something that comes much more naturally with practice. Keep in mind that MATHCOUNTS really only tests a very small amount of concepts (relatively speaking), so working through old problems virtually guarantees that almost all MATHCOUNTS problems will already be more or less familiar to you on test day.
    • You couldn't solve it at all the first time, but solved it after the test the second time. This is improvement, so it's perfectly fine.
    • You didn't solve it the second time around. This means that you don't understand the concept - back to the books.
  • Take all the problems you got correct (during the test) off your "incorrect problems" sheet, and continue to repeat the process from the top.

This may seem like quite a bit of work when typed up here, but in reality it's not. Instead of perpetuating the cycle of "do a practice test, score it, move on, read some books in some disorganized fashion, take another practice test, hope for improvement" (not even necessarily in that order, which is even more problematic), instead we optimize this routine by taking a single practice test a day and making sure that we get everything possible out of it. There are only so many tests, and a frequent complaint is that people have run out of old contests to do. While this may be true, this most likely means that they're not doing the tests properly. A single test with the time taken to reflect, organize, and perform a targeted review is significantly more beneficial than 5 tests taken without a goal in mind.

All in all, this should take at most a little over an hour per day (a little more at the end of the week). You are, of course, welcome to do more, but there's a sort of diminishing returns law past a certain point. Devoting a great deal of time to MATHCOUNTS is going to seem like a serious mistake in hindsight (I was among the most guilty of this), especially if you realize you were spending time incredibly inefficiently. I won't give an exact quote here (simply because I don't remember it and a quick search doesn't turn it up), but one MATHCOUNTS winner (Albert Ni?) said something along the lines of
Quote:
I knew that I wouldn't be the smartest mathlete competing. But I could, quite realistically, be the hardest working one [...]
In MATHCOUNTS, that's all that's required. But quantifying the term "hard work" is necessary - someone who is pushing a boulder from point A 25% of the way to point B is doing a lot of work for very little benefit, while someone who uses a truck to carry the same boulder to point B is doing significantly less work for significantly more benefit. Perhaps as a more accurate analogy, take two people in a shooting contest. As soon as the whistle blows, person A starts shooting haphazardly at his target, hitting it once in a while but constantly having to reload. Person B, on the other hand, takes his time, lines up his shots, and hits the target with deadly accuracy. This is very similar to MATHCOUNTS. Person A is blowing through his material quickly, getting little benefit overall, but naturally with the experience of shooting comes some slight improvement. On the other side of things, person B is taking the time to think about how best to use his limited resources to improve as best he can. Sure, he starts off a bit slower, and at the end of the day he might still have some ammunition left unused, but overall he hits the target more. The first approach is popular because it's very easy to feel like you're doing something - after all, if you're spending 4 hours a day on practice MATHCOUNTS tests, you're outworking everyone else, right? Don't fall into this trap. Line up your shots.
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ImNervous
278 posts
ImNervous
#2 Mar 4, 2014, 4:44 AM • 10 Y
Y by ninjasrule34, doglitter, math101010, mathwhiz16, blitzkrieg21, OlympusHero, friend5, CyclicISLscelesTrapezoid, Adventure10, Mango247
Haha, I was the one that PMed you wasn't I? :wink:
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iNomOnCountdown
1030 posts
iNomOnCountdown
#3 Mar 4, 2014, 4:15 PM • 12 Y
Y by Mudkipswims42, math101010, Kingofmath101, mathleticguyyy, OlympusHero, rayfish, lovematch13, Adventure10, Mango247, and 3 other users
I wholeheartedly agree with this post. THIS is the right way to practice.
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kj2002
881 posts
kj2002
#4 Mar 4, 2014, 4:38 PM • 2 Y
Y by Adventure10, Mango247
BOGTRO wrote:
Or do you honestly not know how to do the problems?

How would you prepare then? Would you read books? etc.
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AwesomeToad
4535 posts
AwesomeToad
#5 Mar 4, 2014, 5:17 PM • 18 Y
Y by iNomOnCountdown, mathman523, ninjasrule34, dantx5, sss04, zmyshatlp, Mudkipswims42, C-bass, math101010, mathwhiz16, yrnsmurf, Krypton36, mathleticguyyy, OlympusHero, CyclicISLscelesTrapezoid, Adventure10, and 2 other users
Pitiful addition to BOGTRO's excellent advice:

Notice that all the introspection and work suggested depends on what you do. If you are looking to rely on books, past exams, or other "resources" to improve yourself, you are missing a lot; unsolved problems, big issues, e.g. don't get solved by people having other people provide stuff to you.
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ChickenOnRage
192 posts
ChickenOnRage
#6 Mar 4, 2014, 11:24 PM • 2 Y
Y by Adventure10, Mango247
What happens if we run out of recent mathcounts tests?
What are some similar Mathcounts-level tests? (Like AMC 8)?
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jeremylu
2260 posts
jeremylu
#7 Mar 4, 2014, 11:35 PM • 2 Y
Y by Adventure10, Mango247
Do more AMC10, in the mid probles, like 12-20, sometimes 21-25 problems can be easy. I actually suggest working on/improving your understanding of concepts
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Royalreter1
1913 posts
Royalreter1
#8 Mar 5, 2014, 1:15 AM • 1 Y
Y by Adventure10
ChickenOnRage wrote:
What happens if we run out of recent mathcounts tests?
What are some similar Mathcounts-level tests? (Like AMC 8)?
Do older mathcounts tests; although they may be easier or in a different style, they are still created by mathcounts.
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AwesomeToad
4535 posts
AwesomeToad
#9 Mar 5, 2014, 1:19 AM • 9 Y
Y by iNomOnCountdown, banonymous322, Erickarl, Mudkipswims42, math101010, 62861, mathleticguyyy, Adventure10, and 1 other user
Just my opinion, but I think you guys are getting off topic. The intent of BOGTRO's post (I believe) was to emphasise that going about learning is much more important than the specific resources you use. Using this as a generic catch-all thread for questions about what problems/books to use seem out of place here.
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NormanWho
806 posts
NormanWho
#10 Apr 26, 2014, 7:22 PM • 1 Y
Y by Adventure10
Is BOTGRO a coach?
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tmathman
2923 posts
tmathman
#11 Apr 27, 2014, 1:23 PM • 2 Y
Y by Adventure10, Mango247
(s)He created this posted either in the summer of his 8th grade or in 9th.
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Priyanka23
7 posts
Priyanka23
#12 Jul 3, 2014, 2:56 PM • 2 Y
Y by Adventure10, Mango247
This is a great method that doesn't waste time and actually helps you get better at mathcounts!
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IequalSmart
558 posts
IequalSmart
#13 Jul 3, 2014, 5:22 PM • 2 Y
Y by Adventure10, Mango247
Just to clear this up, CMMS is Competition Math for Middle School by Jason Batterson.
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ILoveYouMC
18 posts
ILoveYouMC
#14 Aug 11, 2014, 5:20 PM • 2 Y
Y by Adventure10, Mango247
Where can you get CMMS?
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NormanWho
806 posts
NormanWho
#15 Aug 11, 2014, 7:06 PM • 2 Y
Y by axue, Adventure10
ILoveYouMC wrote:
Where can you get CMMS?
You can buy it online.
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Royalreter1
1913 posts
Royalreter1
#16 Aug 12, 2014, 3:14 PM • 2 Y
Y by Adventure10, Mango247
Here: http://www.amazon.com/exec/obidos/ASIN/1441488871/artofproblems-20
Also, the weird extra stuff is to help AoPSWiki pay for itself (find out more here)
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RadioActive
2302 posts
RadioActive
#17 Sep 21, 2014, 3:39 PM • 2 Y
Y by Adventure10, Mango247
ChickenOnRage wrote:
What happens if we run out of recent mathcounts tests?
What are some similar Mathcounts-level tests? (Like AMC 8)?
Some problems from MC actually happen to be problems that come from 1980s AIMEs. The problems get modified a bit, but the concept is the same. http://www.artofproblemsolving.com/Forum/viewtopic.php?f=132&t=606011

In addition, I've used this learning strategy to help improve myself with AMC/AIME, except that the problems are AMC/AIME and the re-tests are 25 or 15 problems.
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EpicSkills32
3075 posts
EpicSkills32
#18 Sep 26, 2014, 2:44 AM • 5 Y
Y by mathwhiz16, OlympusHero, Adventure10, Mango247, and 1 other user
This is really off-topic, but
tmathman wrote:
(s)He created this posted either in the summer of his 8th grade or in 9th.

^What? Please.

First off, the OP was posted in March. He states that he received the pm about a month ago (February). I don't believe Feb-Mar is considered "summer" by most.

Next, if you've ever read his blog (which I encourage you to do if you don't already), you would know that he is not in 8th or 9th grade at the time of this post.

.... and please don't give away personal information anyway. You could have just said "He's still a student but he coaches teams" or something.
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tmathman
2923 posts
tmathman
#19 Oct 3, 2014, 4:05 PM • 3 Y
Y by dipenm, Adventure10, Mango247
EpicSkills32 wrote:
This is really off-topic, but
tmathman wrote:
(s)He created this posted either in the summer of his 8th grade or in 9th.

^What? Please.

First off, the OP was posted in March. He states that he received the pm about a month ago (February). I don't believe Feb-Mar is considered "summer" by most.

Next, if you've ever read his blog (which I encourage you to do if you don't already), you would know that he is not in 8th or 9th grade at the time of this post.

.... and please don't give away personal information anyway. You could have just said "He's still a student but he coaches teams" or something.

Whoops sorry. It was just what I thought was a rough estimate :) No damage was intended.
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poopoohead
2 posts
poopoohead
#20 Dec 16, 2014, 3:57 PM • 6 Y
Y by dipenm, OlympusHero, Adventure10, Mango247, and 2 other users
This inspires me to be a beast every math counts competition and to be a beast.
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Eugenis
2404 posts
Eugenis
#21 Mar 28, 2015, 2:16 PM • 1 Y
Y by Adventure10
I just moved this up to recent since I feel it is important.
Question:
Should I take a practice test or just keep doing Alcumus?
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uwotm8
912 posts
uwotm8
#22 Mar 28, 2015, 2:23 PM • 3 Y
Y by ssr_07, Adventure10, Mango247
I already failed mathcounts so, well, I got nothing for other people. I can tell you in 7th grade, I used to be really lazy. 8th grade was when I started working my butt off, and I still failed math counts.

@Eugenis, Alcumus is probably better, you are gonna run out of practice tests eventually.
This post has been edited 1 time. Last edited by uwotm8, Mar 28, 2015, 6:10 PM
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mathwizard888
1635 posts
mathwizard888
#23 Mar 28, 2015, 5:53 PM • 2 Y
Y by Adventure10, Mango247
I would say practice tests. It preps you for the environment of the competition. @uwotm8, there are a finite number of practice tests and Alcumus problems. However, there are so many of both that it won't really matter. Just find some mocks.
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Eugenis
2404 posts
Eugenis
#24 Mar 28, 2015, 6:30 PM • 2 Y
Y by Adventure10, Mango247
Ok thanks. The only problem is that when I feel like doing math, I either (1) procrastinate on the forums and waste time (2) feel like taking a practice test and have no time (3) do Alcumus of which I actually do (4) Watch rruscyzk's videos, of which is actually do (5) feel like doing the follow-up problems in the videos but not feeling like it.
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zmyshatlp
962 posts
zmyshatlp
#25 Mar 28, 2015, 6:58 PM • 6 Y
Y by ninjasrule34, droid347, techguy2, ninjaforce, Adventure10, Mango247
Well Mr. Rusczyk's videos don't have much geometry, which is why people around the world think that geo is hard.
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kj2002
881 posts
kj2002
#30 Mar 29, 2015, 4:46 PM • 2 Y
Y by Adventure10, Mango247
What if you keep on missing a problem because you have a thought stuck in your head. For example, when you look over your work and redo it again and again, you sometimes make the same simple arithmetic mistake again. For example, I was doing a simple slope problem and I kept getting the same wrong answer. I accidentally did the same arthmetic mistake again and again in my head. How wold you fix something like that, like when you are reviewing a test.
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Eugenis
2404 posts
Eugenis
#31 Mar 29, 2015, 4:48 PM • 1 Y
Y by Adventure10
Write everything you do down, and take it slow. It works...
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aboveaverage
159 posts
aboveaverage
#32 Mar 29, 2015, 7:01 PM • 6 Y
Y by Mathaddict11, ThisIsASentence, Samchooo, First, rayfish, Adventure10
I think BOGTRO's post makes this idea heavily implied, but I'm going to say it anyway because I think it's highly important to know.

When you're learning off of the Aops series or past questions, you need play more of an "active" role when learning concepts or doing questions. If it's not clear what I mean, I used to study Volume I in the Mathcounts Days. What I used to do was just read through examples/concepts and do some of the problems I could do. Afterwards, I looked at the solution manual to look at the questions I couldn't do at all. At that time, if I simply understood the solution and didn't get lost, I would move on. That's essentially the passive way of learning. What I learned in high school was that what the resources gave on paper was never enough. When you read a solution to a problem you can't do, don't just read it and move on. Try to understand why the approach in the solutions was used (this is rarely directed state in the solutions at all). For example, question "x" can be solved with similar triangles because we want side lengths of a triangle, and there are several parallel lines in the question, leading to congruent angles, leading to similar triangles. When you understand why the solutions work, you learn more effectively because you actually have to think as opposed to just glancing at solutions.

Even when you can do a problem successfully, it helps to look at the solutions because it may provide a more elegant solution that the approach you used. In fact, that elegant thinking might be used in other problems, so it can be worth it to analyze solutions for problems you couldn't do in a snap.

Personally, this type of thinking helped me a lot when I was learning. When I learned the ineffective way in middle school, my best achievement was getting 32nd in Mathcounts Texas state round in my 8th grade year (lol). In my 9th grade year, I didn't really get into AMC much; I didn't even qualify for the AIME. In the 10th grade year, I only started to use actual AMC materials in mid-December 2014, but I started to learn effectively. As a result, I jumped from a 114 in my 9th grade year to a 132 this year. I then went on to do as much of Volume II as I could over the few weeks I had until AIME (in reality, I should also have done more past AIME problems). When I ended up taking the AIME II, I received an 8, which would have been god-like to my 9th grade self.
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thatindiankid55
437 posts
thatindiankid55
#33 May 4, 2015, 3:19 AM • 4 Y
Y by ScienceLover969, TopNotchMath, Adventure10, Mango247
This is an amazing article!
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