I visited the world's hardest math class

Math is a language that some of us aren't taught correctly.

The kinda sad thing is that lots of people never liked math or like math because of a bad teacher which can make everything seem like it’s much harder than it really is
Edit: Dang I didn’t know this was that relatable

I appreciate how much you point out how human advanced courses like these are. Hollywood likes to portray upper math courses like these as extremely cutthroat, sink-or-swim. But in reality these classes often involve a lot of collaboration, talking with professors openly and honestly, mutual curiosity in the subject, and lax grading. When I took quantum mechanics in my undergrad, everybody in my class ‘cheated’ by working together on our tests and quizzes. We did that because we all agreed that quantum mechanics isn’t something to be learned alone. We were just trying to understand the material the best we could. My second semester understood that very well, so he encouraged us to turn in assignments as a group, re-explain concepts on the whiteboard, take a stab at explaining things differently, etc.

" as the letters turned into Hieroglyphics" got me rolling so bad 😂

Mid-way through the video, coming from someone that's learning college math right now, the lessons in Math55A are topics you would learn in year 1, 2 (Linear and Abstract Algebra respectively) and Representation Theory is something you're more likely to learn as a grad student. 55b's Real and Complex Analyses parts are something you'd learn in year 2-3, while Algebraic Topology is either 4th or in grad level

Math, especially higher level math, has this beauty that occurs when you're working proofs, like a giant jigsaw puzzle that comes together in the most wonderful way and almost always interlocks with other bigger puzzles. This class seems exactly like that.
I was passionate about math in college, but also long past my time to go to college again thanks to how expensive it is, and sadly it's not that useful when building a career. I'll remember my time with math fondly.

I’m a second year CS student in University, saying I love maths and physics is an understatement. Throughout my self study journey I taught myself Linear Algebra, Calc I-III, Differential Equations, working on Differential Geometry and Topology atm. Math 55 had always been somewhat of a dream of mine but unfortunately I’m not from the U.S nor have the budget for Harvard lol. Thanks allowing me to see for myself a glimpse of what I’ve always dreamed of 🙏🏻

I went to Harvard for undergrad and studied physics, so naturally I knew a lot of kids who took 55. I myself took the intro math class just one level below it in difficulty (Math 25). This video did a better job than I expected at depicting the nature of this class and separating fact from fiction. But some of the details could use better clarification or context. For one, Math 55 is solely for freshmen. Harvard has a large set of introductory Math courses for incoming freshmen who intend to study some STEM field and have already taken calculus in high school. At my time, I think there were around 6 such classes (19, 21, 22, 23, 25, 55). All of them more or less cover linear algebra and multivariable calculus. At the start of your freshman year, you're very much encouraged to "shop" these classes for the first few weeks to find the best fit for yourself in like an open enrollment period. Most students end up enrolling in 21, which is a very standard, non-proof based linear algebra and multivariable calculus series very similar to what you'd find at other schools (though still difficult because... well it's Harvard lol).
The part Gohar gets wrong is that the mythical drop-out rate is mostly referring to the number of people who initially enroll in Math 55 first year during this open "shopping" period, then drop a level or two after a few weeks down to Math 25 or 23 once they determine they can't handle it. But of those who stay enrolled in 55a, of course they nearly all continue on to 55b. In my freshman year, I remember day 1 of 55a, there were upwards of maybe 80 people in the classroom. I went just for fun but wasn't serious about it. I think maybe around half so ~40 enrolled, and then at the end of the shopping period, ~20ish people remained in the class. They all took 55b the next semester, as far as I'm aware.
Moreover, to add some detail, people who are more serious about math (math, physics, and computer science students, mainly) are encouraged to take 22 at the minimum. 25 is where things start to get *very* difficult, and the majority of Math majors at Harvard took it. Those assignments alone usually took me 20 hours. But 55 is special in that it far surpasses the material contained in the other courses; in fact, most of the students who take it probably learned linear algebra and multi on their own in high school. I appreciate Gohar's attempt to make the class seem more inviting and less exclusive, but it truly does deserve its reputation. The student interviewed in the video who had no prior competitive math experience is very rare, and he likely has other significant technical experience, probably in physics or computer science, that has given him the technical maturity to be able to tackle 55, as well as a great level of natural talent. Otherwise, there is no level of collaboration and wishful thinking that can get one through this course unless you are very very advanced and mature in math.

everyone: this is the hardest math class in the world
me: I bet the professor is using hagoromo chalk

Seifert-Van Kampert Theorem; Additional 5:00
Shown in an isomorphic (the part of the whole process of movement like a map) sense, though way clearer if simulated like a video/homotopy that's shown here.
Isomorphic visualization: (you can draw it on paper to help visualize)
[
Level 1:
Imagine a point in a line
Extend it until it reaches the goal
Level 2:
Now divide that line into 2
Extend those lines
Level 3:
Create 2 other points in those lines
Imagine those points as A and B
Duplicate Line A
Draw the line from A to B (assuming its a perfect drag)
And then multiple of those somewhere that can be any line
(Also this man got this theory right)
]
The algebraic expressions may seem like extremely hard unless you understand the language, you're all good.
Overall, basic maths with funny languages, "we're still lacking tbh"

Who came here from the short😂👇👇💯

My hot take is other universities have classes like this too, they just don't market the class the same way. I think UChicago has something like this. I'm an undergraduate student at Duke and took math 403 "advanced linear algebra" my freshman year, which is abstract linear algebra, point set topology, a bit of analysis and group theory, smooth manifolds, algebraic geometry, matrix perturbation theory, convexity, and a few more things I don't remember at the moment. The class was more so a tour of grad level math through the lense of linear algebra... and I took it as a freshman. Homework took around 35 hours to do for me per set, and I stressed a lot, but I made it. It was a highly collaborative and leniently graded class as well. It was a 1 semester course. So, it seems to me maybe other top unis just don't market their classes this way, even though they do offer them.

All of Gohar’s videos are bangers

Gohar is such a great listener, pls consider making a video about something related, it'll wait help alot

Gohar you've transformed my high school experience, keep up the grind 🔥🔥🔥🔥🔥🔥🔥🔥

10:46 his voice is so calming.

One of my longtime friends got into harvard this spring, and is planning to take this course. He has no math olympiad background and took calc bc in senior year, which is wayyy behind the other kids in this course, but I know he is going to do well. To do this course, it doesnt require really strong math skills, but hard work, determination, and passion for math
Also after reading a lot of the comments, yall should understand that he is grinding over the summer. He is watching videos on all the concepts of multivariable calculus, linear algebra, and differential equations. Secondly, he is going over basic proof concepts to get a feel for the class. So he is not going into the class blind lol.

It seems like this course is just a mix of algebra, topology, real and complex analysis using the language of categories. Some topics must be cut out to make it all fit into 2 semesters. Seems like a lot of fun for math majors

If this comment gets 200 likes I will attend math 55
Thanks for the 200, at the start it was kind of a joke not now I want to reach this goal.
I will upload a short every day(starting tomorrow) until I get in to Harvard and pass math 55a.

I recommend you look into the French system of the "classes préparatoires" (prep school), which condenses 4 years of undergrad math and physics into 2 years. Similarly to Math 55, all the problems we tackled were of insane difficulty, there was a strong sense of collaboration within the class, as well as competition versus other schools / classes préparatoires.
These classes préparatoires prep you to apply to the "Grandes Ecoles" (the Great Schools), which are highly valued engineering schools and hard science schools (best among which the Ecole Normale Supérieure and the Ecole Polytechnique de Paris).
In any case, I'm sure there's a good video or two to make about them! ;)

I was thinking this was gonna be some otherworldy course, but then in 3:08 when the actual content was shown, it hit me. This is literally just a combination of all the courses I took in the span of 2 semesters back in 2022 as a physics undergrad.

Gohar thank you so much for your content. You have been absolutely lifesaving this year. I look forward to starting high school next year with a prepared study schedule.

I’m a math major. I’ve taken abstract algebra, linear algebra, and real analysis separately in a span of three semesters. I can’t imagine doing all of these in 16 weeks.

This brings back so many memories. I excelled very well in low level math courses such as Calculus/Multivariate Calculus, Linear, Alg, Diff. Eq, etc. I thought Math was the route for me since I loved it and understood the foundational courses very well. I entered advanced level mathematics courses in Real Analysis, Abstract Algebra, Complex Analysis, etc. and I felt like I was learning the natural numbers all over again. The scariest part was when I found out these weren't even the advance courses! It puts into perspective how smart and/or how good at mathematics some people really are.

Hey gohar, I found your channel 2 years ago. I was a sophomore who had the worst study habits, now I’m a graduating student with far better grades, thank you man

great video. Interesting results from polling your audience. I have always said that even math majors think that math is the hardest subject!

8:15 I wouldn't wish this on my worst enemy

Good video! From what little I can tell from the psets and lecture material, it honestly looks difficult but doable! Seems like a mix of real analysis, advanced linear algebra, abstract algebra, etc. The psets look fun too

Hard, but hardest in the world would be Cambridge's Maths Tripos.

Love the hard work this guys dose and he helps get better at studying thanks Gohar❤

not my stupid ahh pausing at 8:15 to try the questions

my toxic trait is that i think i could do this easily

As an electrical engineering student at ETH, i could never create a deep and rigorous indirect proof of a "more complex" theorem, although i find the art and abstraction, but precision of proof based mathematics truly facinating. thank god engineering math doesnt depend on proof. we shall leave that to the mathematicians.

8:15 the solutions are on the left and the problems are on the right for anyone wondering. The first problem looks like an epsilon-delta proof so I’m going to guess this is part of the Math 55B curriculum covering Real Analysis.
As others mentioned, as a math major you take these classes separately. For example the core math curriculum at my university required Linear Algebra, Abstract Algebra, and Real Analysis. Complex Analysis and Topology were elective higher level maths you could take.
Math is like a language, so it’s no different like trying to take advanced conversational Spanish when you only had Spanish 1. Once you learn the language you learn to read in math. Then it’s a matter of covering subjects. The gateway to learning how to read in math is an intro to proofs class. Math is written through rigorous proofs. At my university the class was called Fundamentals of Mathematics and was a 3-level class. It had a Calculus 1 prerequisite.
Different schools make each of these subjects more or less rigorous. The fundamentals are the same. Abstract Algebra is really when you dig into the philosophy of mathematics in my opinion. I hope that helps someone

The only major thing is changed that number of international students increased so that is why the class became smarter than in the past.

this is actually a super cool video. they all seem like reslly awesome and smart minds. thanks for making this man!

I have a Master's in Computer Science, but math has never been my strongest subject. I can complete a math course and pass, but I never fully understood what I was doing in those classes. The math courses I have taken in college include calculus, discrete math, and statistics. I also throughout my life have had issues with word-based math problems.

i’ve had terrible experiences with math teachers, a few good but mostly bad. this vid made me feel dialed in

8:15 my textbook at university proved something similar to problem 1, so here is a sketch of a possible solution:
By definition, f is lipschitz continuous with lipschitz constant c, so it is also continuous. (Alternatively you can use epsilon-delta, just set delta=epsilon/c and continuity will follow immediately)
Assume that there are distinct fixed points x,y. Then d(x,y)=d(f(x),f(y))≤cd(x,y) with c0 we can chose n such that c^n/(1-c) d(x_1,x_0)

I’ve heard talk about Math 55 time and time again, I’m so glad to see that someone finally makes a perfect video explaining it ❤

4:20 my brother what????!???

I had a friend a couple years younger than me in this class.
I was a strong math student at my university, but she was basically doing in that class what I was already doing in mine (if not harder problems).
This was like 2009-2010, so I don't remember much about it. I know we talked about a few things from the class.
Nice to see this video pop up in my suggestions.

Huge respect to anyone taking this course😅. Quite intimidating tbh especially at an Undergrad level.

A class should NEVER set you up to fail. Your goal is to learn, its not a competition.

Hoping to take this course in September, this has made me feel like maybe it’s possible? Might eat my words though. Thanks for the great video!

Dude I just wanted to say how good your editing is man it’s great I wish I could edit like you ❤

Really enjoying this type of content…Keep it up!

Have you tried to go through Mathematiques Superieures in France? I'll bet you anything you want it completely kicks this class in the teeth, mainly on the sheer volume of math/physics and also the level of complexity. There are requirements to enroll in this type of program (mainly, you have to go through french high school program). In the first year, you will have 7~8h of math per week, and 4~6h of chemistry. If you make it to the second year, the amount of math increases to 11~14h (based on the specialization you take, either MP* or PC*, assuming you're a top student).
The tests are incredibly hard, and that's to train you to the level of complexity you will face at the various competitive exams to enter top engineering schools (Polytechnique, Mines de Paris, Supaero, etc.).
The main difference is that grading there is absolutely brutal. Every kid entering this program is an A+ student. Their grades will drop to D+/C at best, only geniuses will maintain anything close to B. Tests would take about 12h to complete, but you're given only 4h and have to do as much as you can - most of the time you have no clue how to tackle any of the question. And since these are graded and timed tests, of course you're not allowed to collaborate.
The level of pressure is completely different, that's what makes it incredibly challenging.

Love the video and the content you got. Its so interesting to see what these people who love math so much have to share. The editing is great but I felt the excess jumpcuts were kind of messing up the flow at times

This is actually incredibly cool, I'm self studying ODEs and Proof-Writing and seeing this was incredibly eye opening, I definitely want to go to experience this or go to some ivy league more than ever now, man I've had 2 of these eye opening moments within 2 days lmao

I cant lie bro, your really helping and doing amazing keep on going!!

I absolutely despised math in high school and college… particularly algebra, calculus, etc. Ironically I became a bond & options trader on the Street for over 20 years which is kind of funny when you think about it. Even though I had absolutely no idea what was going on here I still found it engaging and interesting. Great work!

This video has convinced me to try taking math 55 next year

I went to MIT back when there was only one version of 18.100, which is now effectively the hardest of three versions. It wasn't "advanced calculus" (a redo of calculus with some rigor added; this version explicitly exists now) but point set topology, and you can derive the calculus on your own time if you want. Whether it felt good or not, I learned a hell of a lot, which has come in handy in unexpected ways in my life. I got a B but decided not to major in math. Maybe I was intimidated by a fairly unpleasant but mathematically well trained fellow student in my dorm, but mainly it was that I had other interests. Back then, though, intimidation was allowed and certainly part of the MIT culture, now it is not.
No doubt in some years, those Math 55 problem sets contained problems even mathematicians would consider hard, like the 2nd semester MIT organic chem class 5..42 that asked students to show reactions that had won Nobel prizes in prior years -- with guidance but they still had to figure it out. Back then it was seen as a selection process as well as teaching, now such selection is culturally unacceptable and, also, departments are fighting for resources and want to attract more majors, not drive them away.
There were well prepared students back then (having attended public high school I was not one of them), and there were things like Math Olympiad too for the few who were that skilled at such an age. At the college level the Putnam exam was already well known. AP calculus has gotten vastly decontented since then. We had many multi-step integrals and a simple proof on the Calc BC exam I took; now my kids had only easy integrals and they would not dream of asking for a proof. So there are surely more math-illiterate students at Harvard today than back then; the low end is lower. I'd be surprised if the other end of the Harvard math bell-curve is a lot higher, since the cultural influences are pervasive. Overall, since Math 55 is meant to be a survey of undergrad math topics, standardizing it and optimizing the teaching does seem like a good thing for Harvard's teaching mission.

8:17 well:
### Problem 1
#### Part (i)
We need to show that \(d_1(f,g) = 0\) implies \(f = g\).
- Given:
\[
d_1(f,g) = \int_0^1 |f(x) - g(x)| \, dx = 0.
\]
- Since the integral of a non-negative function is zero, the integrand must be zero almost everywhere. Therefore,
\[
|f(x) - g(x)| = 0 \quad \text{for almost all } x \in [0, 1].
\]
- Hence, \(f(x) = g(x)\) almost everywhere. But in the context of continuous functions on \([0, 1]\), this implies \(f = g\).
#### Part (ii)
We need to show that \(d_1(f,g)\) is symmetric, i.e., \(d_1(f,g) = d_1(g,f)\).
- By definition:
\[
d_1(f,g) = \int_0^1 |f(x) - g(x)| \, dx.
\]
- Since \(|f(x) - g(x)| = |g(x) - f(x)|\), it follows that:
\[
d_1(f,g) = \int_0^1 |g(x) - f(x)| \, dx = d_1(g,f).
\]
#### Part (iii)
We need to show the triangle inequality for \(d_1\), i.e., \(d_1(f,h) \leq d_1(f,g) + d_1(g,h)\).
- By the triangle inequality for absolute values, for any \(x\):
\[
|f(x) - h(x)| \leq |f(x) - g(x)| + |g(x) - h(x)|.
\]
- Integrating both sides over \([0, 1]\), we get:
\[
\int_0^1 |f(x) - h(x)| \, dx \leq \int_0^1 |f(x) - g(x)| \, dx + \int_0^1 |g(x) - h(x)| \, dx.
\]
- Therefore,
\[
d_1(f,h) \leq d_1(f,g) + d_1(g,h).
\]
### Problem 2
#### Part (a)
Show that \(f_n(x) = \frac{nx}{n^2 + x^2}\) converges uniformly to 0 on \(\mathbb{R}\).
- For any \(x \in \mathbb{R}\):
\[
|f_n(x) - 0| = \left| \frac{nx}{n^2 + x^2}
ight|.
\]
- Notice that:
\[
\left| \frac{nx}{n^2 + x^2}
ight| \leq \frac{n|x|}{n^2} = \frac{|x|}{n}.
\]
- Since \(\frac{|x|}{n} \to 0\) as \(n \to \infty\) uniformly in \(x\), we have:
\[
\sup_{x \in \mathbb{R}} \left| \frac{nx}{n^2 + x^2}
ight| \leq \frac{1}{n} \to 0.
\]
- Hence, \(f_n(x)\) converges uniformly to 0.
#### Part (b)
Show that \(g_n(x) = \begin{cases}
\frac{1}{2} & \text{if } x \geq \frac{1}{\sqrt{2}} \\
0 & \text{if } x < \frac{1}{\sqrt{2}}
\end{cases}\) does not converge uniformly to 1.
- For \(x \geq \frac{1}{\sqrt{2}}\):
\[
g_n(x) = \frac{1}{2}.
\]
- For \(x < \frac{1}{\sqrt{2}}\):
\[
g_n(x) = 0.
\]
- Consider \(x = \frac{1}{\sqrt{2}} + \frac{1}{n}\). Then \(x \to \frac{1}{\sqrt{2}}\) as \(n \to \infty\), but:
\[
g_n\left( \frac{1}{\sqrt{2}} + \frac{1}{n}
ight) = \frac{1}{2}.
\]
- Hence, for \(x\) in this interval, \(g_n(x)\) does not converge to 1. Therefore, \(g_n(x)\) does not converge uniformly to 1.
### Problem 3
Given sets \(A\) and \(B\) with the distance function \(\delta\), define sets \(U\) and \(V\) such that they are disjoint.
- Define:
\[
U = \{ x : d(x, A) < d(x, B) \}
\]
\[
V = \{ x : d(x, B) < d(x, A) \}.
\]
- Clearly, \(U\) and \(V\) are disjoint because \(d(x, A)\) cannot be both less than and greater than \(d(x, B)\) at the same time.
- To show that \(U\) and \(V\) are non-empty, consider points \(a \in A\) and \(b \in B\). There exists a point \(x\) such that \(d(x, A)\) is less than \(d(x, B)\), and vice versa.
### Problem 4
Claim: For \(U, V, W, C\) with \(W\) disjoint from \(C\) and closed, \(U \cup C \subset W \cup C \subset V\).
- Since \(W\) is closed and disjoint from \(C\), \(U \cup C\) is a subset of \(W \cup C\).
- Because \(C\) is closed, any point in \(U \cup C\) is either in \(U\) or \(C\), which means \(U \cup C\) is contained in \(W \cup C\).
- Hence, \(U \cup C \subset V\).
If you make a pdf file from this, you will see what's behind the '\'s.

i love lecturers and professors with my entire heart they’re so smart and so passionate

Thanks a lot for your study tips in all your videos ❤❤

I randomly came across this video few days before I actually have to attend one of my most important exams which can decisively change my future. I used to always suck at maths and always hate it, the 1st of July, I'll be attending an online retake of a math exam that could allow me to enter in my second year of EHL (the best management school in the world in Switzerland), and if I fail it, I'll be forever kicked out of the program, so I'm really stressed but watching this type of videos really encourages me to succeed in it. Wish me luck !

"Undergraduate" is a detail you left out. I'm sure it's really hard, but that's an important detail to forfeit.

Although i'm in year seven and only started algebra and quadratics and expanding brackets in October. My goal is to make it to oxford university because i'm from England. I love your tips and I save them for when I am older and I recommend your videos to my cousin who has just left for Cambridge university. Have a great day X.

I adored this video so much!!

8:19, I had paused and returned a little while later to find out a single pizza takes anywhere between 24 and 60 hours to complete.

Hell no you will never see me taking a class like this lol. Math gives me so much anxiety , I barely survived college algebra ! But I commend those who do take it!!!

first time i was actually interested on going beyond the short, you did good

best videos bro, not even Study Gpt understands it

We need more of these TH-cam channels.

This course sounds super fun and interesting.

Those are literally my favorite concepts in math bc they are so foundational to higher level maths. Its awesome.

Thank you so much for such an insightful video ✨✨

I liked that Wonjae was part of this interview. He was successful in what many would believe is an impossible course even though he had little math background. There's this fear in taking mathematics and failing for students because there's this false concept that you must love it to understand it, but I think that is far from the truth. As a practicing professional engineer for over 15+ years, people always assume that I must've loved math. My response to them is always the same: I hate it, but it was an ends to a means. My true love is engineering, but mathematics has always been my foundation and I appreciate it.

6:02 You know the math is hard when you can’t see a single number on the blackboard lol.

as a fellow math major. anyone who enrolls in math heavy subjects are there for the love of math. they are NOT dropping out.

So yeah the moment he started writing on the board I was blown from the first question

Very interesting class. Kudos to a great professor and students willing to accept a challenge.

발음이 너무 좋으시다!! 딕션이 귓속에 똭똭 박히게.

We look forward to see more. These lectures go into detail with everything that it's hard to wrap your head around.

And why is this the hardest undergrad math class now? Abstract algebra and some algebraic topology in a general topology class are standard compulsory courses of the second year (at least here in Europe). Any algebraic topology, commutative algebra, or functional analysis course would be harder, wouldn’t it?

I study in the Department of Statistics and Informatics. It is a very difficult and complex section. I completed my bachelor’s degree in 2021, and I am currently studying for a higher diploma, which is less than a master’s degree and higher than a bachelor’s degree. Greetings from the State of Kurdistan 🇹🇯

What I would say is that Math is my favorite subject even though its hard. I love math. The things you hate you are going to love those things. I never liked math But when I got to 8th Grade- 11th grade now I love math.

It doesn't seem to hard to be honest, since its collaborative. The hardest thing is getting use to the notation the professor uses. Some professors want to make it as complicated as possible, but it doesn't have to be

What I hate is that it took the people who invented these proofs years to make them. yet we are expected to come up with the correct proof in a 2 hour long test to like 7 questions.

No way in hell is a group theory class the hardest math you can take at the undergraduate level. Now, as a reference I have a PhD in stat but my masters was in math (topology) and I sat down for a few days to work through an archive of the problems. I can say, with certainty, that there are courses in physics, topology measure theory that most Ivies have which blow this out the water and it isnt even close. Hell, if the professors are particularly aggressive there are courses in optimization and linear models which would put this to shame. Group theory (and subsequently group theoretic/ analysis based calculus) is a beautiful subject which builds an almost natural intuition compared to some of these other fields Ive listed

Gohar your amazing thnx for the amazing content

It is only a hard math course, if one is poor at explaining. Thus the art of teaching is born, transforming the most advanced concepts into the simplest explanations.

10:46 That voice tho💀

I love math & even decided to master it in my adult life to be fluent without needing a calculator.
Particularly basic arithmetic operations; as they seemed to be the most practical to actually go through with learning for real world scenarios.
For me to have knowledge stay in my head. It needs to have a relevance to my life, idk how the hell they can do these advanced mathmatics for fun.

0:23 JESUSTTTTTTTTTTT bro, homie on the right locked in 💀💀😂😂😂😂 bro already premediating his life goals for the next 10 years

Seifert van Kampen is not THAT bad, although other topics in Homotopy theory are quite hard.

This class is like a do or do not life scenario

Bro that short you made was really good promo for this video, I never searched for a vid so fast after watching a short😂

4:08 be honest, who thought this was the sponsor

You explain even the hardest topics in such a simple way.

Great video to have a snowball effect with students & professors ❤

These kids are brilliant but the level of difficulty really makes you think about what level the people who makes these theorems are

Talking of difficult math courses. I remember one graduate course in differential geometry and Lie groups I took at uni. The professor was a pole (in Denmark), who could hardly speak the language. He entered class and just began writing on the chalkboard without introduction. He made no references to the course book whatsoever. Nobody knew what the man was talking about at all. You had to complete assignments to pass, and they were difficult. You had to figure out yourself what part's of the book, that contained the tools needed. Most people had to team up to figure them out. I spend 2 days on a 4-page proof of a two line exercise, that I was the only one to do. It was a great course, where I did some great proofs!

Regarding the time needed to complete problem sets. I remember my Real Analysis class from my undergrad days. At one problem, I estimated that my average time to complete a problem was 30 minutes--almost all of the time was spent understanding the problem and thinking through possible solutions or paths to the solution and just a minute or two to write down the solution once grasped. Yeah, I can believe the time range given for time needed on a weekly basis to do the homework.

This is a very fun video, I would love to see more videos like this

Kudos to the professor. He is from another dimension, it seems.

There is a very similar thing in Poland called MATEX, which is an experimental math program in the XIV Staszic highschool. Freshmen of that profile are often already finalists of math olympiads

7:32 this one gave me some real goosebumps like 5 times in a row. That's how i realize how fascinatingly big of a deal math is.