The SAT Question Everyone Got Wrong

Wait, it is night

It is 10 PM where I live and now I can't sleep😂

Bruh it’s 16:46 where I am
Got back from school and just did some homework now I’m eating snacks then I will play games

You're mentally challenged

@@zayansaifullah2008 same

Did the professor change your grade?

​@@QYXPI had a question marked wrong on a chemistry test that the professor refused to accept was actually right. The head of the chemistry department came to our class and embarrassed him in front of everyone showing why I was right and he was wrong.

literature tests: q.e.d.

@@Sciguy95 very cool, but also unprofessional

@@pongmaster123 We don't have the full backstory and never will, it might have been well deserved. Don't feel offended for some random obtuse chemistry teacher that may or may not even exist.

That was the "aha" moment for me too.

This

There were 3 aha moments for me

if you divide the straight line in half and start to roll along it at the "top" to the end you then can make a 180, roll around to the "bottom" and then go in the other direction, make another 180 and keep going until you reach your starting point. These two 180 needed for the direction change add the 4th rotation 🤯

The earth around the sun was a fantastic example for why the frame of reference matters, especially with the graphic

Just use you’re and your inspections will be perfect. 👍

If you took rolling circumference then your measurement will always be correct, that is what you want for your measurement. It does not matter if you do it in circular loops or a straight line on the ground, it will be the same circumference measured by rolling. These guys are trying to argue that when you take a rolling circumference of a circle that you also have to count the extra flips from it going around the orbit from your external perspective. That is not correct.
So this video is wrong, the SAT problem was about "rolling" so the correct answer of the problem is there will be 3 rolling revolutions. No where does it say to use an external frame of reference, so you count the vertical/horizontal flips as an extra revolution.
If you go by the math rolling revolution, then the correct answer is 3. Simple large circumference divided by the smaller circumference.
Now if you decided to incorrectly go by the external vertical position and you count the extra flips then you will say 4 revolutions, but that is 100% wrong. In addition, this is a geometry question, not a relative physics question. The question is 100% clear that it is a rolling circumference and a rolling revolution, the picture shows it. Correct answer = 3.
If you measured like this for work using a wheel, you would also get the correct answer of 3.

@@common_c3nts Yes and I do agree. I just calculated the surface of both circles and divided the largest by the smallest and it ends with 3, so it must be 3 regardless of how they interpret it should be and even adding anything extra 1 to it. It have to be three. Honestly I suspect that they are failing to take a correct point of view upon this problem. They consider sliding, different perspectives. But this is not politics. This is exact science. No different views, no sliding. They should consider the cog-wheels in order to prevent sliding to measure the distance correctly. It is a shame...

I think you are wrong here, because you are walking with the roller measuring tape. Basically, you and the stick holding the roller are making one revolution whilst performing the measurement

Y’all are overcomplicating a simple problem as an excuse for flunking out of community college

@@LJ3783I think there’s a greater theme here - there’s a certain hubris to the belief that questions such as this represent “intelligence.” There are…certain large tech companies that exclusively leverage SAT type philosophies in hiring to the exclusion of allowing nuance, and it doesn’t actually work that well in my opinion. Problems in the real world often don’t look like an SAT question and more often there literally isn’t a “correct” answer. If we condition people on these sorts of problems they don’t end up adapting well to an engineering trade off, nor are people who view the world from an SAT lens necessarily good at solving trade-offs in the context of a team. I think this type of criticism is that the SAT quite obviously fails to support its own philosophy of the existence of “correct answers” when the wording is wrong.
I don’t say that to explain away my life failures, rather I say that because I have learned the importance of hiring people in a more nuanced way that allows for these different dimensions. Not sure if you’ve ever tried to work with an arrogant math PhD before 😂

​@@LJ3783not really. The wording here is objectively bad, and dare I say, wrong.

@@justarandomguy8694I'd say that's the real issue, it comes down to semantics.

@@LJ3783if the wording is bad enough that most everyone got it wrong, then perhaps there needs to be an evaluation instead of brushing it off as semantics. Usually with tests like these it is expected for some people to get it wrong. But not a vast majority. If you say things poorly, then it makes sense that you get misunderstandings.
Also, you cannot flunk out of community college if you’re not even in college. These exams are meant to loosely determine how ready you are for college. I’m not sure what your first comment was meant to say

Brilliant. Wish I'd thought of that!

I thought of it as a circle rolling three times along a straight line, and then one more time as the straight line is curled into a circle itself

That's actually a great example.

Yes because by measuring from the center of the circle, you are offsetting by the value of the radius. So you essentially just add up each circle's radius to get the number of rotations of circle A. So if Circle B's radius was zero, the centre of circle A still has to travel around it's own radius of 1.

this helps a lot!! thanks!

Fun!

That is what first came to mind when I first saw this problem. I didn't immediately jump to 4 as the answer, but I knew 3 wasn't correct.

There's a recent TV version starring David Tennant that I remember that from.

@@Mark73 Really? I might have to check that out

Glad about him.

😂

Nuh uh

I’m 9 minutes in and I says 12k views and 150 comments

haha

Yeah but I was first before you even wrote this. . .

An actual honest response, lol at those who said they instantly concluded it was 4 rotations

It is the kind of problems which when you see the solution you feel dumb because the solution is so obvious

You weren't incorrect

i was surprised cause my intuitive answer was 4 by looking at the circles but it was not an option so i thought 3 XD

The answer is 3 only the video is useless

Imo this is a more immediately intuitive explanation than what was in the video!

This is a dumb fake question to convince you that the Earth is turning. These two clowns couldn't solve the time of day.

I also thought of this same explanation

Excellent!

Great visualisation. This should be pinned

He’s a genius 😂

Are you mad 😂😂😂😂😂😂

♾️ iq 🗿

genius 😂

😹😹😹

this comment helped me solidify ny understanding thank you

Thanks. This is a great way to think about it! ❤❤

Genius comment, thank you!

finally! i got it

That idea helped me as well

You’re clever 👌

That’s some pro level thinking🔥

but why is it one? why cant it be anything else?

​@@munkhjinbuyandelger10:10

Where is the paradox, when started rotating around same sized coin, point under neck of face picture was touching, after halfrotation at 180 deg where narrator started speaking again, point above head of face picture was touching the stationary coin, that means half rotation, full rotation will be when same point that was touching the stationary coin will again touch it, and in same sized coins, that comes when coin reaches starting point again. So where is paradox?? Cant they see that point that was touching at start, touches the circle again at whole 360 rotation, in same size coins. What is confusion??

I feel like I already had that lesson before education. I feel like the most important lesson for me - that helped me grapple with how to be effectively wrong - is how to think in terms of probability than binaries.

​@@hieronymusbutts7349❤

A harder lesson still is, "I might be wrong and I'll never know it." This is why people who fear the Scientific Method really shouldn't. It's also a primer in the Scientific Method, perfectly demonstrating why the goal isn't to prove a hypothesis is correct. Rather, the goal is to prove a hypothesis is NOT correct. Similarly, it demonstrates why the strongest theories are those derived from inductive reasoning (multiple specific cases lead to a generalized conclusion), rather than deductive reasoning (a generalized case leads to multiple specific conclusions).

Agreed! The most important thing I learned when learning math or physics or any objective knowledge is that by admitting the probability your are wrong is the best you can do to advance in those fields. I love to think that the physics, as we human know and define it, is always more correct than before but never (at least in the foreseeable future) completely right.

I always thought this way, but I learned in the working world that if you acknowledge that you could be wrong other people will assume you're wrong.

Literally same❤

Exactly. Rotation and Revolution are pretty different imo. Pretty ambiguous

Revolutionary comment

That coin rotated once in the first demo, I don't understand how it was 2? With its head up, it went around once before its head was up again.

Was mostly with ya till 10mins….then i felt like a toddler afterwards 🤦🏼‍♂️🤷🏼‍♂️😜

I haven't watched this video yet, but based on the thumbnail, it is one that super annoys me because the answer depends on perspective, how you view the english language. I should go find my comment from the past, but first I should watch the video. I just know I will get annoyed when I do, lol

Thank you, for a great YT comment!

haha, good point@@Redmenace96

​@@gruangerhave you watched it yet?

Watched it :) The video didn't annoy me but it is the problem I remember@@Alpha_Online

the phenomenon he describes is true, but it does not apply to astronomical observation the way he makes it out to be. According to their own theory, the tilted axis of supposed ball earth always faces into the same direction (towards the star polaris) in this 360 degree orbit which supposedly gives us the seasons. That means the earth is independently rotating ACCORDING TO THEIR OWN THEORY which contradicts this presentation completely because in this presentation earth is dependently revolving around the sun as if there was a mechanical connection between sun and earth, like a carousel, which we know from actual reality that it is not like this.

@@theswordofthespiritspeakstoyou Apart from getting everything wrong, it does apply to astronomical objects. I'm not sure if you're being serious though. A lot of people, people who never had a chance at education (surprise surprise), repeat stuff from other people who pretend that they believe "earth is flat" to make money of such people. I personally find it hard to believe that anyone who older than 5 can believe "earth flat".

the typical response of denial or paid actors: personal attack without arguments. You can't even stick with the topic. There is no point in having a conversation with you. Good luck.@@josephh891 btw I am seeing this channel has a few million followers making money off of spreading lies. None of the people I talk to make these amounts of cash! You might want to reconsider your insults, they don't stand the test of time... but then again so does the heliocentric model not

Yeah, I paused the vidoes calculated and divided the circumference(even did it on a calcluator and made myself realise after getting the answer how unecessary that was) and thougth the answer was obviosu and ez. Then after already calling myself dumb I got even more corrected :) But as U said "Never stop learning"

Flat earth websites are largely a creation of the intelligence community. There are legitimate conspiracy inquiries that point the finger at national and international BIG LIES. So one of the ways of getting people to ignore said theories is to "muddy the water" (a CIA term), by confusing the population. Let me give an example. Suppose the JFK assassination was really a plot...a plot by "deep-state" people who wanted JFK dead because his policies were threatening military or financial goals of the deep state. So you create a very slick "Flat earth" website, in which you also show evidence that JFK was murdered by a conspiracy, and you also mention evidence that 9-11 was an inside job, also designed by the deep state. In this way, people who don't like conspiracy theories will conflate "flat earthers" with JFK conspiracy theorists or 9-11 theorists, and just come up with the conclusion, "Hey, those conspiracy theorists are all nuts." thus ignoring two conspiracy theories that have some merit. Believe it or not, there are propagandists who work full time at this sort of thing. That's why it's called the Information Wars.

I was confident that I was right, but because of that, I was then confident I was wrong

I'm just glad I got the correct wrong answer

same

Are you familiar with Symmetrical Sequence Component theory created by Charles Fortescue in 1928? In this work he proves why 3n+1 harmonics are positive sequence (rotate in the same direction as the fundamental) and why 3n-1 harmonics are negative sequence. This comes down to this very coin paradox problem

what was you trying to imply here bro 🤣

This is why common sense is not a thing

@@GameTimeWhy That's not at all what common sense is. Common sense is an ability to intuitively solve simple everyday problems such as "It is cold outside, I will wear warm clothes" or "it is raining, it is better to dry clothes inside". It is certainly not something you can use to solve complex math.

​@@anteshellTrue. The major problem with "common sense" is that too many people equate "I think that...." with "It is common sense that....".

This channel information starts where common sense end. And there are many people who dont have common sense to start with

​@@anteshellThis is a a hand-wavy explanation.
Common sense is usually used to describe something that should be simple and intuitive and known by many people within a given area. This video shows why common sense doesn't map easily to reality and we should study things further.
This also isn't complex math its basic geometry, the fundemental of math.

Thou ne maketh a full point, anything of mathematics must be really interesting.

Agreed

@@aniketmeshram6598 reconstruct your sentence. Please.

@@bill5197 i mean to say that he/she/pronouns wants to defy this Cosmic phenomena which was discovered by that great mathematician and astronomer who gave us "Zero"

@@bill5197 whats wrong with his word?

I'm really glad Veritasium included the astronomical part. The moment I realized my mistake (which happened when I gave it some more thought after he confirmed that 3 was wrong), I noticed the connection to sidereal days - as a kid, I spent ages wondering why my astronomy books claimed a day was only 23 h 56 minutes long, so that's pretty firmly imprinted on my mind.

Leave it to Veritasium to make a 45-minute fascinating video on a seemingly trivial topic!

I think the explanation here is confusing, its actually pretty simple if we use SUPERPOSITION:
take the number of rotation ("revolution" along the circumference flatted out as a line)
we call it "linear".
and the number of the revolution of center point of circle A along the circumference from start to end (the given is 1).
to be less confusing, lets just say the single revolution of the circle A, along B.
we call it "given".
linear = 3
given = 1
total = 4
this is true for all radii.
ex. 2: for 2 coins of the same radius for about 1 revolution.
linear = 1
given = 1
total = 2

If you learn real math go to mathologer. Veritasium is rookie compared to him

I am giving an rigorous argument
Point A is moving in a circle of radius 4R about rigid point B
Let "w" be the angular velocity of A about B(that is the ground frame)
Then velocity of A=w(4R)
Now point of intersection of both the circles are not showing relative motion and since B is fixed that means velocity of point of contact must also be zero
Let the omega of smaller coin be w'(which is different from w which was the angular velocity of centre don't confuse yourself they are two different thing)
VA with respect to ground= w4R
Velocity of point of contact with respect to centre A= w'R
Hence velocity of point of contact with respect to ground is w'R-w4R which must be zero as per assumption it isn't sliding
=> w'=4w
Now when centre A moves by 2π then time taken 2π/w
In that same time coin rotates an angle of 4w(2π/w)
Hence no of turns 4

Geometry is the best mathematics, and I will never be convinced otherwise.

​@@M4TCH3SM4L0N3Instead of adding +1, you can allow the vertex to follow sine or cosine and the circumference to follow sine or cosine. Circumference measurement is one rotation for 2 Pi and vertex measurement is two rotations for 2 Pi. You're just changing the path and starting point of the measurement. He used trigonometry, and could have just kept using it for his proof.

@@ADUAquascaping I understand that you CAN use trigonometry for the proof, and I'm not saying that isn't valuable; I'm simply saying that I prefer the branch of mathematics that only requires a straight-edge and compass and its corresponding axioms and proofs.

@RepentandbelieveinJesusChrist5 Sad how religion turns you into a mindless drone

Wait till they figure out how it ties in to space travel too =)

Hear, hear!

Keep It Simple Stupid
KISS

Damn I wish to do aerospace/astrophysics too

Out of curiousity, how often do people pronounce it side real and how often do you hear cider eel? I'd seen the word before and assumed it was a compound word - and Astrophysicists seem like exactly the kind of people to read a word and understand its meaning before hearing it out loud.

@@rosly_yt You're hilarious.

I am giving a rigorous argument
Point A is moving in a circle of radius 4R about rigid point B
Let "w" be the angular velocity of A about B(that is the ground frame)
Then velocity of A=w(4R)
Now point of intersection of both the circles are not showing relative motion and since B is fixed that means velocity of point of contact must also be zero
Let the omega of smaller coin be w'(which is different from w which was the angular velocity of centre don't confuse yourself they are two different thing)
VA with respect to ground= w4R
Velocity of point of contact with respect to centre A= w'R
Hence velocity of point of contact with respect to ground is w'R-w4R which must be zero as per assumption it isn't sliding
=> w'=4w
Now when centre A moves by 2π then time taken 2π/w
In that same time coin rotates an angle of 4w(2π/w)
Hence no of turns 4

only solution : 2π(rA+rB) / 2πrA = 4 🤨

Yes! Sidereal time! Thanks

Beautiful

me, I've done that with timelapses over 24 hours. really cool stuff.

More schools should do this, and similar experiments that require minimal outlay but reconfirm "known" results. For example, I would expect most schools to be able to find someone due north/south who could set up a vertical pole and measure the length of the shadow at solar noon on a specific day. Which, with some trig, is all you need to confirm that the Earth is curved (at least along a north/ south path), and the circumference (if you assume a sphere).

wow ur ancient, did u shake hands with trexes back in the day?

I still don’t understand exactly how the movement of the earth affects the rotation time.

@@temple69 Watch a 3D demonstration of it

But why should we add 1 day for Sidereal year, if Earth may not "slipping"? But it was correct only for slipping case

​@@igarazhaQuite the opposite. It works only if there is no slipping. Which is exactly the case with the Earth's movement around the Sun.

Thanks for not misusing any comma.

I completely misunderstood the question. I assumed both wheels were on spindles and acting like cogs. What a terrible question

That, and perhaps the graphic with the earth also really worked for me - with the earth having travelled partly around the sun due to its orbit, it suddenly makes sense that after one full rotation, the earth would have to rotate a little bit further to have the same point facing the sun (and be midday).
It's great as I'd often seen sidereal time/days mentioned on wikipedia and never really got what it was about, other than some weird astronomical time due to some weirdness with the earth spin and whatnot

If I hadn't heard of this problem before the ribbon example would've been the most baffling to me because it is not intuitive at all to realize that you would also need to add a length of ribbon for the smaller wheel too.... unless you make car dynos for a living I suppose.

I don't know whether he explained it well. Rather than think about the edges of the circles, think about the center. The center of the small circle is at 4r, and that has a circumference of 2*pi*4r and so travels 4x its circumference which is 2*pi*r. That's 4 rotations. In other words, the approach is correct but the circle of travel happens to be bigger.

​@@lonzie same lol I actually thought it's 3x1=3 so it is b lol

As an engineer, I made the same answer mistake just like anyone else till realized yeah it is the center of the circle ⭕️ which + 1 because it is running outside then yeah it makes sense.

I knew this was the case because I visualized it immediately, but I still didn't know the answer until he said it increases the distance traveled by exactly one circumference of the circle, then I was ashamed of myself for forgetting curvature introduces an extra rotation. I had learned this during mechanical engineering school and missed my opportunity to say "I know the answer!"

The part here is that it's rotating around not with it like gears then they both become flat lines and 3 to 1 ratio. How is that to blow ones mind.

Yeah

Same thought. How is it possible that not one of the test writers/editors etc. had even the most rudimentary understanding of astronomy? I solved it from the thumbnail, before watching the video and wondered how I could be wrong, since my answer wasn't listed.

I wish Derek had rolled his coins in the other direction to match solar system's rotation. My head is stuck on the astronomical visual (and I have a hard time dropping that out of my head).

ABSOLUTELY NOT A TRICK QUESTION. Saw the answer just by looking at the problem, only to watch the video and see that I was correct. The problem with average minds is that when they become highly educated, the tend to Believe that they are way more intelligent than they really are, when in all actually they are just smarter than than rest of us.......... in one specific area.

@@basildraws it was a trick question they told u it made 1 revolution then they asked u howmany revolutions it made if ppl misread question and answered how many rotations it made well thats like being asked if 2 trains are traveling at x speed and start from station x & y at time x when will they meet and deciding to submit a answer on wind speeds over tracks instead

@@hamasmillitant1 No, it wasn't a trick question. If it had been, then "1" would have been on the list of choices. So even if they HAD intended it that way, they still made a mistake. It's pretty clear they meant for the student to calculate rotations based on the choices given, and it's clear they still failed to calculate the answer correctly themselves. The use of the word 'revolution' instead of 'rotation' is just an ADDED mistake on their part.

This gives a thought about a mathmatical use of a child's "Spiral Graph" set, its gears and calibrated holes within the gear templates traveling within or outside different circumferences of the outer circle (or triangular or square outer shaped gears that some deluxe spiral graph kits provide.

Veritasium is ridiculously talented at making videos.

How many sidereal minutes does RUclips take?

@@tombiby5892I have no idea but for a production like this it's not uncommon to have multiple hours of side reel just in case

Don't read my nameDon't read my name

The same thing happened to me

That was my exact thought was gear ratios lol.

Learned about this when we talked about the moon slowing down its rotation in high school and I realised it still made 1 rotation around its own axis for every lunar month, so it could always show the same face towards Earth.

I was just wondering this. It is only for planetary gears or all gears?

Good

Fggg

Very good

I am giving a rigorous argument
Point A is moving in a circle of radius 4R about rigid point B
Let "w" be the angular velocity of A about B(that is the ground frame)
Then velocity of A=w(4R)
Now point of intersection of both the circles are not showing relative motion and since B is fixed that means velocity of point of contact must also be zero
Let the omega of smaller coin be w'(which is different from w which was the angular velocity of centre don't confuse yourself they are two different thing)
VA with respect to ground= w4R
Velocity of point of contact with respect to centre A= w'R
Hence velocity of point of contact with respect to ground is w'R-w4R which must be zero as per assumption it isn't sliding
=> w'=4w
Now when centre A moves by 2π then time taken 2π/w
In that same time coin rotates an angle of 4w(2π/w)
Hence no of turns 4

They should have offered him a job making the tests.

The fact that he corrected a mistake from the very test that they use to determine if you were good at math probably is a good point to bring up to get hired or accepted for a job or university
Its also nice to see that they aknowledged their mistake, admitted it to everyone in news, and dismissed the question from everyone’s test. They have admitted to everyone their mistake, knowing well that it would impact their reputation for having made the mistake
Only 3 people in the whole country sent a letter to correct them, likely not many noticed or cared about the mistake. They could just “ignored it and pretend it didnt happen” like so many goverments and corporations do regularly. Even more so considering people were not sharing everything instantly using internet on a global scale

dude if he became a social worker i'd be more fascinated

@@FlorenceSlugcat Removing the question was improper and created more inaccuracy in the scores. The question was part of the test and consumed time that could have been used on other problems. At least some students failed to answer other questions correctly because they wasted time on this question. For example, a great math student could have spent 5 minutes on this question totally stumped that no correct answer was there. Now, that great math student gets this question thrown out and also gets some other questions wrong because of time. So, any student who answered 3 should have been given full credit. The test makers who allowed this faulty question also administered a faulty correction.

@@jakemccoy I agree the question should have been thrown out. When every student in one of my classes misses a question, I eliminate the item. This rarely happens, however.

I came up with a similar scenario: what if the outer wheel didn't rotate at all, or was a sqaure, but was rather DRAGGED around the inner circle. It would still complete one rotation on its own, right? That's the rotation of the reference frame itself. Incidentally, from the POV of any point on the "tread" of the outer circle, they do indeed make contact 3 times during the rotation around the inner circle.

That's the kind of simplified thinking that gets to a good solution with minimal fuss. Well done.

So, is it safe to say that B could be as small as one atom and this is still true? And that it stops being true only if B gets larger than it is? I'm from the visual learner, math challenged peanut gallery.

​@@velvetbees hold a quarter in your hand and keep it facing you. Turn yourself in a circle and note how (from an aerial view) the quarter would have rotated 1 time. But relative to you, it wouldn't have rotated at all. This experiment simulates how a circle with a radius of 1 to ∞ would orbit (without slipping) a circle with a radius of 0. I may not understand this well enough to explain it clearly, but that's my best attempt.

You're making the "A" (or whatever marking is on the little circle) either face upward (our perspective) or outward (circle's perspective) as the determining factor for a full rotation. So, when you start the rotation, from our perspective, you want to face the "A" marked on the circle upward, and then count a full rotation every time it comes around to face upward again. But if you want to count it from the perspective of the circles themselves, you only count a full rotation every time the "A" points outward from the circle, instead of upward.

Use cosine and sine. Set the edge as cosine (0,1) and the center as sine (0,0). 2 Pi is one cosine rotation. 2 Pi is two sine rotations. Cosine as the circumference has four 90-degree rotations and sine as the vertex has eight 90-degree rotations within 2 Pi.

That’s literally what he explained in the video.

​@@Bot28111Instead of adding +1, you can allow the vertex to follow sine or cosine and the circumference to follow sine or cosine. Circumference measurement is one rotation for 2 Pi and vertex measurement is two rotations for 2 Pi. You're just changing the path and starting point of the measurement. He used trigonometry, and could have just kept using it for his proof.

You keep saying paradox. I do not think it means what you think it means

​@@Bot28111He saved us 15 minutes though

I think the simplest visually is: we know the point on A that starts tangent to B will touch it again 1/3 of the way around. at that point A will be on the top right of B, and the point will be aiming down and to the left 120°, an extra 1/3 rotation.
So, every time A travels its perimeter, it does 1 and 1/3 rotations, which it does 3 times.

Same. I was raised by a father who was an attorney. He taught us to think very critically and to try to consider all possibilities before drawing conclusions. Word problems on tests were very difficult for me because of my inability to begin from a point of a blank slate. Before I had even finished reading most questions I would recognize the answer will depend on one or more unstated assumptions. Most of the time the question would not include all the necessary information to eliminate enough assumptions to be sure of the answer, unless only one answer choice was even reasonable. The worst were problems that seemed to be designed to lead you to two possibilities. Not knowing the assumptions the test author was making, you just had to guess between them. I don't fault my father though; critical thought is the foundation of healthy skepticism. Today I am astounded at the inability of people to parse information logically, failing to recognize when relevant facts are being omitted

The LSAT had an entire section that was subjective back when I took it. Not long after, they quietly eliminated that section.

I'm sorry but nobody has pointed out the joke in the comment? Ethic question on an exam for lawyers? Before you string me up and then nail me to cross, I know not all lawyers are bad, just the bad ones give everyone a bad reputation.

@@daviddrake5991 "Ethics" has a different meaning in a corporate context. Ethics means playing by the rules some governing body has set, at the cost of losing one's license or facing severe penalties. Not so much about doing the morally correct thing. One does their business ethically, or they lose their livelihood.

@@daviddrake5991 I get it. My dad used to say (tongue in cheek) most of the lawyer jokes must have been made up by dead-beat dads who were paying alimony and child support. He, having grown up on a farm and the son of a sharecropper, had a special place in his heart for poor people. He used to take homegrown veggies to various poor folks in his home town. I know because I was the bond servant in his gardens, lol On the other hand when he served in the state Senate he spoke of a senator who had a postmaster in his district intercept social security checks in the mail so he or his staff could personally deliver them to well-placed locals. Big ethics problem there IMO

Here's the thing...I understand sidereal time, and I still got the problem wrong the first time I thought about it! (Whoops. Of course, TBF, it doesn't help that the correct answer was not one of the options.)

it‘s still wrong, earth is not a rotating ball revolving around the sun, the constant speed theory of the rotation of earth contradicts this whole video. Since constant speed theory of earth is essential to justify „we don‘t feel any consequences of such a rotation“ this house of cards folds in. There is so much evidence out there outside of the realms of astronomy that prove the earth is flat and not a ball. As Jesus says blessed are the eyes of those who see. What He means is that it‘s God‘s creation (flat), not a people’s creation (ball) and truth is with God in Heaven! Friendship with the world means enmity with God. It‘s the blind leading the blind in this world.

Great idea!

🤯

Or leave circle A and B attached at the same point and rotate circle B clockwise. This is effectively the same as having circle A orbit circle B without any rotation.

Makes me want to research gears now

We know...

I have found that in confusing situations in math the key error, or answer, is -1, 0, or 1.

I was a professor of computer science. My school, in the midst of my career, did a study of graduation rates, and used that to set a minimum grade on the math SAT for a Computer Science major. I could now teach more Computer Science because I was teaching less remedial math, and that in turn increased our school’s reputation.

Thank you!!! I finally understand 😊

Actually get it now!

that made it easier for me thanks. Pity the guy doing the vid couldnt explain as easily.

@@mk1cortinatony395 He showed how the rounded path around the corners of the triangle could be pasted together to get a complete circle.

What dontou mean on inside lf circle the rotation is in the opposite dorection..the circle.rptsripnal.direction doesn't change so notnsure what you meant..and how does a circle have infinite number of corners..you mean because it has an infinite number pf tangent lines?

Super interesting!

Dude how fast are your feeds for this to matter?

@@appa609 On a production machine this matters. For one offs who cares.

As a CNC programmer, that's not really true. I just asked a couple other programmers/machinists at my shop this question and nobody got it right. The thing you have to deal with is varying chip load, which isn't the same at all.

@@fresheFresse Yeah doesn't matter at all for one offs and low volume stuff. When you need a machine running 24/7 for years to make 12 million of something, a fraction of a second quicker could save days

I hadn't watched this far when I wrote that, but he almost describes this at @11:15, though for some reason he stops after only one side of the line.

This is a good explanation.

Thank you, that really helped put the broken pieces of my brain back together. 😂 Much appreciated. ❤

Thank you so much. Was going mad

Great explanation thanks

That happened to my junior year English teach in high school (but a year before I took her class). The exam question was "describe the book 'The Scarlet Letter'". As I'm sure you've already guessed, one student wrote a 5 paragraph essay about the size and shape of the book, the various artistic properties of the cover art, the texture of the paper and the font used, etc. According to her, she took it to a faculty meeting for help, and the other teachers concluded that she had to grade it as a correct answer.

Both of your stories are amazing!

once I wrote a paper for a friend who said "I didn't know anything about the breakup of the soviet union, so I asked a friend, and HE said: " then she put my entire paper in quotes, ending with "I couldn't have said it better myself." She got an A.

can't get hung up on small quibbles, quickly scrawl the "F" and move on

I took a 3rd year math course called numerical analysis.
We had to "Prove a theorem" on an exam that involved a set of given variables in relation to the error when solving differential equations numerically.
The intent of the question was to basically memorize a theorem about the minimum error produced we proved in class and reproduce it on the exam. Except the question said nothing about proving a minimum - it just said prove A theorem.
I thought I had
understood the process of the theorem so I didn't have to memorize it, but I just couldn't get it to work out to show a minimum. I ended up proving a maximum to the error which was correct (we did not do this in class), and he had to give me full marks as he didn't specify which theorem to prove. I ended up with 100% on the exam, and he learned to more carefully word his questions!

The reference was "roll" as stated in the problem. Correct answer is 3 as you can only count the rolling revolutions. That was part of the trick of the question. Someone that cannot math would just visualize rolling around but from their external perspective and they could easily incorrectly count the 2 flips as an extra revolution as it looks like that to their eyes. But in reality, it is 3 rolling revolutions. The problem is only circle vs circle, not circle vs external point. Formula is large circumference divided by the small circumference. Shape does not matter. This is a simple division problem based on both circle's circumferences. That math guy missed this question and lost 10 points. He scored a 790 out of 800. 4 is not the correct answer. They over thought the problem and then convinced the SAT that they were right, when 4 is wrong.

Did you even watch the video? Did you miss, that it is always just +1? So 365,24 days of rotation about the sun becomes 366,24 from a different view point? +1 exactly even there.

Yeah, that makes it a lot more intuitive for me as well. Especially since you can easily in your head generalise it to rectangles, pentagons, hexagons, …
So the circle intuitively follows.

@@gardenjoy5223 I mean, he saw the whole triangle part, didn't he? The concept is not the easiest to fully grasp, and I also agree that the triangle part helped to make it make sense to me, a simpleton.

I thought 3 immediately, backtracked because it had to be a tricky question if it were on Veritasium, recalculated 4, didn't see it on the list and decided to just watch the rest of the video.

No, not 1/3 at each corner. Less than that.

I really like your idea. It is a common trick to get to extreme values (0 being the case here) in order to clarify things.
The movement of the moon is another great example, as the rotation of the moon around the earth matches the rotation around itself. Thus, we always see one side of the moon, but still the moon rotates around itself.

He turned it into a rotation orbit thing but the practical application would be cogs in a gear like inside a clock or in a production line, the real answer would have to lie there, which suppose is 3. The quarter had made 1 rotation but the outside of the quarter had only managed half a rotation. I’m fascinated this had 3 possible answers.

This could made the video a 1 minute short! Great explanation!

Oh , that's a good explanation!

Your explanation at first sounds like a great idea for explanation of this coin paradox, but then it got me thinking, since a point has no circumference, you cannot rotate (or "roll" is better word) a circle around it.
Another paradox?
Not quite. You can rotate a circle around a point, but it has to be in a fashion, as the point and the center of the circle are connected by an invisible shaft.
In other words, for one full rotation each point on the circle will draw a circle around that point, by which you rotate.
Whereas in that SAT question each point on the circle A will draw three "petals" around circle B.
In two equal coins it would be a circle twice the diameter of the coin and tangeant at one point to the stationary coin.
This was a cool problem to think about.

I find it's especially problematic with multiple choice tests. I grew up in a country where they are barely used at all (only for tests that are meant to give an idea of how students as a whole are progressing. They are more meant to test the school and education system as a whole and the grade doesn't account for much) and when I prepared to take the Cambridge Certificate (basically like TOEFL) most of that time was spent learning how to answer multiple choice questions bc well, all important exams we had ever taken up to that point allowed you to explain your answer and what was graded was the whole answer and as long as what you did made sense and was well explained.

Not sure about others, but this was really bad for me, as I had major issues taking the problems (as i am autistic) extremely literally with very little wiggle room. To others, it may have been very easy to "tell what they meant", not for me though.

But this time it's not about wording it's about a wild paradox!

@@fragophilefiles9976 And wording. As he stated the wording of the question allowed for 3 different answers two of which and arguably the most relevant answer wasn't an option.

The most ironic thing is that the testwriters can make questions as ambiguously worded as possible but as soon as you missed a unit or misused one word you lose a point

Thats convenient. In Jee they purposefully distort it

It didn't help you in the Writing and Language section...LOL, JK😂

​@@scramjet7466According to my experience most of them are close, if not to scale. Anyways scale doesn't really matter for the questions in JEE

techgeek2625 was right - whether it was drawn to scale (or not) - it didn't matter in this case. The outcome is always the same.
total # of rotations = ratio between inner circle to outer circle + 2πr

@@attsealevel Idk much about the questions of SAT, but judging by the level of SAT Maths, maybe some questions will be easier to solve with diagrams which are to scale.

@@seekerofthemutablebalance5228 It makes sense because the number of rotations depends on your frame od refrence. From the viewpoint of the larger circle the small circle rotates 3 times, but from the viewpoint of an external observer the small circle rotates 4 times.
The difference comes from the "camera" from the viewpoint of the larger circle rotating too. The "camera" has to rotate so it always sees the small circle.

Poe content creator in the wild.

@@seekerofthemutablebalance5228 The center of the circle rotates 4 times because, if you draw a line from the center of the larger circle to the center of the smaller circle, it forms a radius of 4 (1+3) but the outer portion of the circle rotates three times, that's why his demonstration at 6:15 has the blue arrow.

I am giving a rigorous argument
Point A is moving in a circle of radius 4R about rigid point B
Let "w" be the angular velocity of A about B(that is the ground frame)
Then velocity of A=w(4R)
Now point of intersection of both the circles are not showing relative motion and since B is fixed that means velocity of point of contact must also be zero
Let the omega of smaller coin be w'(which is different from w which was the angular velocity of centre don't confuse yourself they are two different thing)
VA with respect to ground= w4R
Velocity of point of contact with respect to centre A= w'R
Hence velocity of point of contact with respect to ground is w'R-w4R which must be zero as per assumption it isn't sliding
=> w'=4w
Now when centre A moves by 2π then time taken 2π/w
In that same time coin rotates an angle of 4w(2π/w)
Hence no of turns 4

1. A complete rotation is a 360 degree turn about the centre of an object.
2. A full rotation of circle A can be identified when the initial point of contact on circle A touches B again as it roles without slippage over B.
3. It will take three such turn for A to get to it's original point around B.
4. The misconception of the casual observer is to expect circle A to return to a 0 degree parallel orientation with respect to its initial position.
For the identical coins, this corresponds to rotation through 180 degrees (180 × 2 ÷ 360 = 1 complete rotation).
For circle A rolling over circle B it corresponds to 270 degrees (270 × 4 ÷ 360 = 3 complete rotations)
That is the supposed circle paradox. It doesn't exist.
There. Nice, elegant, straightforward, simple, and aligned with mathematical commonsense.

@@markverani5088 Could you explain further e.g. how you chose 180 degrees vs 270 degrees and the multiplier too, please.

@@midaz7 It is not choosing. It's observing keenly.
I started with the coin. Logic says half a rotation will cover just half the distance, right?
If the coin is fixed at the center and you mark the turning point, at exact half a turn, the coin will be upside down (this is the source of the false expectation that the upright coin has done a full rotation). However, the coin is rolling. So I now expected only the back of the head to ever touch the fixed coin as it rolled to the lower position which is what I saw.
Now the coin is exactly upside down relative to coin B. Like you standing on your head instead of on your feet. I think we can agree that is a 180 degree flip.
That's the instant I realised I had been false expecting the coin to be upright as it rolled to have done a complete turn like everyone else watching the video.
Realising what happened when it was 180 degree turn for the coin, I immediately spotted Circle A was upright at 90 degree angles against Circle B every time it seemed it was a full rotation. Since a 90 degree turn is clearly too short a distance, I automatically knew it was a 270 degree turn instead. That's a cheap conclusion for anyone whose done a little trigonometry. I proceeded to verify mathetically.

@@midaz7 As for the calculation, that's easy. We know the number of times it seems a rotation is complete (when the coin or Circle A is upright). So the total rotation to return should be that angle multiplied by the number of turns, right?
We also know that a full rotation is 360 degrees. So dividing the total rotation to return by one full rotation (360) should give the number of rotations to the start point again, right?
That's why the calculation is consistent when you use the real angles that represent the upward positions.

Learning about gear formulae was wild. I really enjoyed drafting gear diagrams and drawings even though it was time consuming.

I really felt the absence of "Hey, this is Presh Talwalkar here!" at the start of this video

Ic thanke thee.

Doing some math with sidereal days and orbits of moons are what made me figure all of this out as well. Was figuring out phases of the moon with sine waves and stuff and noticed that indeed, if you tell that the moon does 12 orbits in 1 year, you actually end up with 11 full moons per year because it needs to orbit a bit more than a full orbit to end up at full moon again. This is what made me realize that the number of full rotations in an orbit (which the SAT question effectively is asking about) is the amount of "days" + 1. So 'lo an behold how confused I was when the SAT question didn't have a 4 in the answers lol

I have not been taught this in school. I had no idea this existed at all

Way to slide in your own video. Kind of spammy if you ask me.

Well said!

The thumbnail is clickbait because it shows the wrong question -- it pared down the original SAT question to be very incomplete. Note how different the actual question is with more details.

@@oahuhawaii2141lol he had a whole video about this. It’s called “clickbait is highly effective.” Idc if he wants to do clickbait as long as the content is actually good 😂

@@kirbya9545 I agree. Flashy thumbnails is the game you have to play. It's like a really flashy bag of chips...If you open it and it's full of delicious chips, then who cares?!

@@Stevelemontrudy and unlike a bag of chips 40% of this video isn’t air 😂

Literally seeing it in front of her and _still_ insisting it's not true is wild

She sounds like a useless teacher.

@@orangenostril
"Your coins must be faulty. The answer *is* 1. Now go and sit down!"

Still true today for many teachers, especially in Asia. Teachers are often drilled to "teach what's correct" but never consider what happens when they are wrong. I've been teaching for the past 10 years and the way I look at teaching is, I don't teach. I share and learn at the same time. I share what I know with my students, and encourage them to seek their own versions of the knowledge, and I feel great when they come back with alternative perspectives to the same subject, or other versions that they've found. Then we explore the differences together. This fosters an atmosphere of collaborative learning and students are much more willing to engage the subject, because they own the learning process. For me, I grow with them.

@@bunface 💖

This explanation made the most sense to me. Thank you.

This is a dumb fake question to convince you that the Earth is turning. These two clowns couldn't solve the time of day.

They rotated the scores around themselves

they converted the score from solar to sidereal but all the good schools were only accepting solar scores. hang it up, son.

Pretending the question was never there is improper and creates more inaccuracy in the scores. The question was part of the test and consumed time that could have been used on other problems. At least some students failed to answer some other questions correctly because they wasted time on this question. So, any student who answered 3 should have been given full credit. The test makers who allowed this faulty question also administered a faulty correction.

😂 That is so funny. Where did the extra question go? Oh, no! Where did my application to Yale go?

This is why skipping questions you can’t immediately solve is such an important standardized test strategy

If someone was dumb enough to continue wasting time on one question that was stumping them instead of moving on and finishing everything else and returning, I doubt it made much of a difference to their end score.

@@PoopiDScoop That's not necessarily true. Some questions require more time, so a person might just assume this is a harder question. Thus, instead of spending their normal 1 min, they'll spend 3 minutes. Generally, the skipping questions when you're stumped is good if you don't know where to start or if you think the problem will take too long, but otherwise, spending an extra couple of minutes is usually worth it, as otherwise you'll just lose your train of thought if you skip the question. Since the question had a misprint, it's entirely possible that some people had the right idea, and were sure they knew how to solve the question, so they spent that extra bit of time to hopefully solve the question, instead of completely discarding their train of thought for that problem and moving on (since moving on effectively resets their progress on that question to 0).

@@Boltclick Skipping then returning tends to be the better option as there may be later questions with similar reasoning that will simplify the harder question. It also allows you to divvy up your remaining time more equitably between any other questions skipped.

It’s also a good strategy because you are penalized for wrong answers but not for blank answers.

The reference was "roll" as stated in the problem. Correct answer is 3 as you can only count the rolling revolutions. That was part of the trick of the question. Someone that cannot math would just visualize rolling around but from their external perspective and they could easily incorrectly count the 2 flips as an extra revolution as it looks like that to their eyes. But in reality, it is 3 rolling revolutions. The problem is only circle vs circle, not circle vs external point. It is basic High School geometry/algebra. Formula is large circumference divided by the small circumference. Shape does not matter. This is a simple division problem based on both circle's circumferences. That math guy missed this question and lost 10 points. He scored a 790 out of 800. 4 is not the correct answer. They over thought the problem and then convinced the SAT that they were right, when 4 is actually wrong since there were only 3 rolls around the large circle.

Reminded me of Minkowski sums (addition of convex shapes). He only talked about convex shapes in his example, but if the shape can be concave, then the formulas do not apply anymore interestingly enough! Because rolling on the outside where the shape is concave is the same as rolling inside a convex shape! So you'd have to sort of do a mix of both formulas in those situations !

I found myself understanding the problem less and less until that exact diagram

Yeah, that one really helped me understand this. I was super confused otherwise

Yes, I agree! So good.

I did the same thing and guessed 9/2 since it was the closest answer haha

I snipped the small circle into a string and draped it over the larger circle in my mind, giving me the answer of 3

Yea but it's just a visual representation of the problem, you're supposed to use the data given in the problem. The actual size of the "coins" in the image is meaningless

@@oneilljames1 The image is to scale

Use cosine and sine. Set the edge as cosine (0,1) and the center as sine (0,0). 2 Pi is one cosine rotation. 2 Pi is two sine rotations. Cosine as the circumference has four 90-degree rotations and sine as the vertex has eight 90-degree rotations within 2 Pi.

For real... i didn't even though like this before

This so very, very much. The countless pains of trying to figure out whether to answer what's literally being asked instead of answering what would seem to be what the maker of the question wanted to ask.
It's ridiculous how such a thing exists so pluralously in tests, questionnaires, forms and medical examination papers etc.

I don't think the question writer knows what a revolution is.

Well I guess if anything it better prepares you for life

That’s not a fact. The main issue, is that the correct answer wasn’t even there. The wording of the question was poor also.

Math word problems are more often English problems which is why they are often criticized as being racist. You shouldn't need to be an English major to sold word problems. They should be written like people naturally speak. And the answer should reflect that as well.

what amazed me is it's as simple as putting the smaller circle on the inside of the larger one and seeing it makes less rotations

Yes; the entire industrial revolution relied on a precise understanding of gears.

Start learning Houdini. You'll be jumping down an endless rabbit-hole.

Same bro

3blue1brown gang

Idk why but my brain sucks at handling visual models

Truly, that’s the case with me too!

Just how all gears work in reductors.

My instinct was 1 too. Our bwois confused between revolution and revolution

I thought it was 4 as 3r + r = 4r saw the multiple choice thought I was wrong and said A

Bro wrote a whole book

he's got great presence on camera too

The question should have said "rotations", not "revolutions"...or maybe I don't understand what the world "revolution" is supposed to mean, I'm basing my idea on what we say for the earth around the sun, etc...

Nobody says "the earth revolves 365.25 times around the sun in a year...we say it only does so once, lol...because we mean the whole thing going around it...and circle A only goes once around circle B, regardless of rotations, which are supposed to be different things than revolutions...

7:13 that's exactly what they are bringing up...I need to watch these videos entirely before commenting, etc...

Right?! As soon as I saw his title, I was like, ok that checks out lol

At this point, I just assume Derek has a 'Sherlock Holmes'-esque filing cabinet of every mathematician, professor, and scientist he can call on for collabs XD

matched so perfectly, like a well written script from a movie😂

is it really a coincidence that the person who called out the test creators on a math problem is a mathematicion

Always has been

That's what the school system teaches you

​@@Magst3r1 Which is a good lesson for the real world: Learn to pick your battles. When it's a trivial issue, don't waste your time raising a big stink about any concerns you have. Just do what you're expected to do and move on.

You (as I) initially analyzed from a gear-ratio perspective. The problem is more subtle. (see below addnl comments)

life in general is exactly that. on repeat. this is why most nerds who make it are autistic or agreeable or naiive and basic. others get depressed. and society deteriorates.

except 3 is a correct answer - the problem that the 3 students who "corrected" the SAT - was that they overthought the question - in fact "revolution" as more than one meaning - and i would have interpreted it the way the questioners intended it -
on a flat surface - the rolling coin that starts with the head upright - will have made 1 full rotation/revolution/roll (when the circumference has fully played out) when it's upright again - but put it on a curved surface - and that no longer applies
when rolling a quarter around a fixed quarter - the coin has NOT made a full rotation when George's head is upright again at the bottom of the fixed coin - if you mentally straighten out the edge of the fixed coin - you'll realize that the head of the rolling coin is UPSIDE DOWN when it's on a straight line
if at the start you placed a dot on the edge of the rolling coin where it was touching the other - that dot would not be touching until it has gone all the way around to the top of the fixed coin

👍⚙️