Jo Boaler: How to Learn Math | Lex Fridman Podcast #226

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the following is a conversation with joe buller a mathematics educator at stanford and co-founder of youcubed.org that seeks to inspire young minds with the beauty of mathematics to support this podcast please check out our sponsors in the description this is the lex friedman podcast and here is my conversation with joe bowler what to you is beautiful about mathematics i love a mathematics that some people don't even think of as mathematics which is beautiful creative mathematics where we look at maths in different ways we visualize it we think about different solutions to problems a lot of people think of maths as you have one method and one answer and what i love about maths is the multiple different ways you can see things different methods different ways of seeing different in some cases different solutions so that is what is beautiful to me about mathematics that you can see and solve it in many different ways and also the sad part that many people think that maths is just one answer and one method so to you the beautiful the beauty emerges when you have a problem with a solution and you start adding other solutions simpler solutions weirder solutions more interesting some of their visual some of their algebraic geometry all that kind of stuff yeah i mean i i always say that you can take any maths area and make it visual and we say to teachers give us your most dry boring maths and we'll make it a visual interesting creative problem and turns out you can do that with any area of maths and i think we've given p it's been a great disservice to kids and others that it's always been numbers lots and lots of numbers numbers can be great but you can think about maths in other ways besides numbers do you find that most people are better visual learners or is this just something that's complementary what's the kind of the full spectrum of students in the way they like to explore math would you say there's definitely people who come into the classes i do who are more interested in visual thinking and like visual approaches but it turns out what the neuroscience is telling us is that when we think about maths there are two visual pathways in the brain and we should all be thinking about it visually some approaches have been to say well you're a visual learner so we'll give you visuals and you're not a visual learner but actually if you think you're not a visual learner it's probably more important that you have a visual approach so you can develop that part of your brain so you were saying that there's some kind of interconnected aspect to it so the visual connects with the non-visual yeah so this is what the neuroscience has shown us that when you work on a maths problem there are five different brain pathways and that the most high achieving people in the world are people who have more connections between these pathways so if you see a maths problem with numbers but you also see it visually that will cause a connection to happen in your brain between these pathways and if you maybe write about it with words that would cause another connection or maybe you build it with something physical that would cause a different connection and what we want for kids is we call it a multi-dimensional experience of math seeing it in different ways experiencing it in different ways that will cause that great connected brain you know there's these stories of physicists doing the same i find physicists are often better at building that part of their brain of using visualization for intuition building because you ultimately want to understand the like the deepest secret underneath this problem and for that you have to intuit your way there yeah and you you mentioned offline that um one of the ways you might approach a problem is to try to tell a story about it and some of it is like legend but i'm sure it's not always is you know you have einstein uh thinking about a train you know and the speed of light and you know that kind of intuition is useful yeah you start to like imagine a physical world like how does this idea manifest itself in the physical world and then start playing in your mind with that physical world and think is this going to be true is this going to be true right einstein is well known for thinking visually and people talk about how he really didn't want to go anywhere with problems without thinking about them visually but the other thing you mentioned that sparked something for me is thinking with intuition like having intuition about maths problems that's another thing that's often absent in maths class the idea that you might think about a problem and use your intuition but so important and when mathematicians are interviewed they will very frequently talk about the role of intuition in solving problems but not commonly acknowledged or brought into education yeah i mean that's what it is like if if you task yourself with building an intuition about a problem that's what that's where you start to pull in like um what is the pattern i'm seeing in order to understand the pattern you might want to then start utilizing visualization but ultimately that's all in service of like solving the puzzle like cracking it open yeah you get the simple explanation of what why why things are the way they are as opposed to um like you said having a particular algorithm that you can then execute to solve the problem yeah but it's hard it's hard yeah reasoning is really hard yeah it's it's hard i mean i love to value what's hard in maths instead of being afraid of it we know that when you struggle that's actually a really good time for your brain you want to be struggling when you're thinking about things so if it's hard to think intuitively about something that's probably a really good time for your brain i i used to work with somebody called sebastian thoran who it's a great sort of mathematician you might think of him an ai person and i remember in one interview i did with him he talked about how they'd built robots i think for the smithsonian and how they were having this trouble with them picking up white noise and he said they had to solve it they had to work out what's going on and how he intuitively worked out what the problem was but then it took him three weeks to show it mathematically i thought that was really interesting that how you can have this intuition and know something works it's kind of different from going through that long mathematical process of proving it but so important yeah i think probably our brains are evolved as like intuition machines and the uh the the math of like showing it like formally is probably an extra thing that we're not designed for you see that with feynman and his i mean it's just all of these physicists definitely you see um starting with intuition sometimes starting with an experiment and then the experiment inspires intuition but you can think of an experiment as a kind of visualization right just like let's let's take whatever the heck we're looking at and draw it and and draw like uh the pattern as it evolves as the thing grows for n equals one for n equals two n equals three and you start uh to play with it and then in the modern day which i loved uh doing is you know you can write a program that then visualizes it for you right and then you can start exploring it programmatically and that that and then you can do so interactively too i tend to not uh like interactive because the way it takes to way too much work because you have to click and move and stuff i love to interact through writing programs that's my particular brain software engineer so like you can you can uh do all these kinds of visualizations uh and then there's the tools of visualization like color uh all those kinds of things yeah that you're absolutely right they're actually not taught very much right like the art of visualization not taught and we love as well color coding like when you represent something mathematically you can show color to show the growth yeah and kind of code that so if i have an algebraic expression for a pattern maybe i show the x with a certain color but also write in that color so you can see the relationship very cool and um yeah we particularly in our work with elementary teachers many of them come to our workshops and they're literally in tears when they see things making sense visually because they've spent their whole lives think not realizing you can really understand things with these visuals it's quite powerful you say that uh there's something about there's something valuable to learning when the thing that you're doing is challenging it's difficult so a lot of people say you know math is hard or math is too hard or too hard for me do you think math should be easy or should it be hard i think it's great when things are challenging but there's something that that's really key to being able to deal with challenging maths and that is knowing that you can do it and i think the problem in education is a lot of people have got this idea that you're either born with a math sprain or you're not so when they start to struggle they think oh i don't have that maths brain and then they will literally sort of switch off in their brain and things will go downhill from that point so struggle becomes a lot easier and you're able to struggle if you don't have that idea but you know that you you can do it you have to go through this struggle to get there but you're you're able to do that and so we're hampered in being able to struggle with these ideas we've been given about what we can do i ask a difficult question here yes so there's kind of um i don't know what the right term is but some people are um struggle with learning in different ways like their brain is constructed in different ways and um how much should as educators should we make room for that so how do you know the difference between this is hard and i don't like doing hard things versus my brain is wired in a way where i need to learn in very different ways i can't learn it this way how do you find that line how do you operate in that gray area so this is why being a teacher is so hard and people really don't appreciate how difficult teaching is when you're faced with i know 30 students who think in different ways and but this is also why i believe it's so important to have this multi-dimensional approach to maths we've really offered it in one way which is here's some numbers in a method you follow me do what i just did and then reproduce it and so there are some kids who like doing that and they do well and a lot of kids who don't like doing it and don't do well but when you open up maths and you give you let kids experience it in different ways maybe visually with numbers with words what happens is kids there are many more kids who can access it so those different brain wirings you're talking about where some people are just more able to do something in a particular way that's why we want to that's one of the reasons we want to open it up so that there are different ways of accessing it and then that's not really a problem so i grew up in the soviet union and uh fell in love with math early i was forced into math early and fell in love through force that's good well you fell in love with other people well but there uh something we talked about a little bit is there's such a value for excellence uh it's competitive and it's also everybody kind of looks up the the definition of success is being in a particular class is you know being really good at it um and like it's not improving it's like being really good i mean we are much more like that with sports for example we're not it's like it's understood you know you're going to star on the basketball team if uh you're going to start on the basketball team if you're going to be better than the other guys the other girls on the team uh so that coupled with the belief this could be partially a communist belief i don't know but the belief that everybody is capable of being great but if you're not great that's your fault and you need to work harder and i remember i had a sense that um probably delusional but i could win a nobel prize i don't even know what that entails um but i thought um like uh my dad early on told me just off hand and it always stuck with me that if you if you can figure out how to build a time machine how to travel back in time it will probably give you a nobel prize and i remember early in my life thinking i'm going to invent the time machine and like like the tools of mathematics were in service of that dream of winning the nobel prize and it's silly i didn't really think in those concrete terms but i just thought i could be great feeling and then then when you struggle the belief that you could be great is like struggle is good right pushes you on yeah and so the other thing about the soviet system that might love to hear your comments about is just the sheer like hours of math like the number of courses you're talking about a lot of geometry a lot more i think in the american system you take maybe one year of geometry in high school yeah in high school first of all geometry is beautiful it's visual and then you get to reason through proofs and stuff like that in in russia i remember just being nailed over and over would you it was just non-stop and then of course there's different perspectives on calculus and just the whole the sense was that math is like like fundamental to the development of the human mind so math but also science and literature by the way was also hit very hard like we read a lot of serious adult stuff america does that a little bit too they challenge young adults with good literature but they don't challenge adults very much with math math so those two things um valuing excellence and just a lot of math in the curriculum do you think do you think do you find that interesting because it seems to have been successful yeah i think that's very interesting and there is a lot of success people coming through the soviet system i think something that's very different to the us and other countries in the world is that idea that excellence is important and you can get there if you work hard in the u.s there's an idea that excellence is important but then kids are given the idea in many ways that you can either do it or you're one of the people who can't so many students in the school system think they're one of the kids who can't so there's no point in trying hard because you're never going to get there so if you can switch that idea it would be huge and it seems from what you've said that in the uh in the soviet union that idea is really different now the downside of that idea that anybody can get there if you work hard is that thought that if you're not getting there it's your fault and i i would add something into that i would say that anybody can get there but they they need to work hard and they also need good teaching because there are some people who really can't get there because they're not given access to that good teaching so but that would be huge that change as to doing lots of maths if um if maths was interesting and open and creative and multi-dimensional i would be all for it we we actually run summer camps at stanford where we invite kids in and we give them this maths that i love and the in our camp classrooms they were three hours long and when we were planning the teachers were like three hours are we gonna be able to keep the kids excited for three hours turned out they didn't want to go to break or lunch they'd be so into these mathematical patterns we couldn't stop them it was amazing so yeah if maths was more like that then i think having more of it would be a really good thing so what uh what age are you talking about is there um could you comment on what age is like the most important when people quit math or give up on themselves or on math in general and perhaps that age or something earlier is really important moment for them to discover to be inspired to discover the magic of math i think a lot of kids start to give up on themselves and maths around from about fifth grade and then those middle school years are really important and fifth grade can be pivotal for kids just because they're allowed to explore and think in good ways in the early grades of elementary school but fifth grade teachers are often like okay we're going to prepare you now for middle school and we're going to give you grades and lots of tests and that's when kids start to feel really badly about themselves and so middle school years we our camps are middle school students we think of those years as really pivotal many kids in in those years are deciding yes i'm gonna keep going with stem subjects or no i'm not that this isn't for me so i mean all years are important and in all years you can kind of switch kids and get them on a different pathway but i think those middle school years are really important so what's the role of the teacher in this so one is the explanation of the subject but do you think teachers should almost do like one-on-one you know little johnny i believe in you kind of thing like yeah that energy of like turns out it's really important there's um a study that was done it was actually done in high school english classrooms where all kids wrote an essay for their teacher and this was done as an experiment half of the kids got feedback from their teacher diagnostic feedback which is great but for half of the kids it said an extra sentence at the bottom that the researchers had put on and the kids who read that extra sentence did significantly better in english a whole year later the only change was this one sentence what are the sentences so what did the sentence say the sentence said i'm giving you this feedback because i believe in you and the kids who read that did better a year later yeah so when i share this with teachers i say you know i'm not suggesting you put on the bottom of all kids work and giving this feedback i believe in you one of the teachers said to me we don't put it on a stamp i said no don't put it on a stamp it's um but your words are really important and kids are sitting in classrooms all the time thinking what does my teacher think of me does my teacher think i can do this um so it turns out it is really important to be saying to kids i know you can do this and those messages are not given enough by teachers and really believe it and believe it yeah it's like you can't just say it you have to believe it i i sometimes cause like it's such a funny dance because i'm such a perfectionist i'm extremely self-critical and i have when students come up to me and it's clear to me that they're not even close to good and it's tempting for me to be like uh to sort of give up on them mentally but the reality is like if you look at many great people throughout history they sucked at some point yeah exactly and and some of the greatest took non-linear paths to where they sucked for long into la into later life and so always kind of believing that this person uh can be great exactly you have to communicate that plus the fact that they have to work hard that's it yeah yeah and you're right silicon valley where i live is filled with people who are dropouts at school or who had special needs who didn't succeed um it's very interesting that have gone on to do amazing work in creative ways i mean i do think our school system is set up to um value good memorizers who can reproduce what a teacher is showing them and push away those creative deep thinkers often slower thinkers they think slowly and deeply and they often get the idea early on that they can't be good at maths or other subjects so um yeah i think many of those people are the ones who go on and do amazing things so there's a guy named eric weinstein i know many mathematicians like this but he he talks a lot about not having us about having a non-standard way of learning i mean a lot of great mathematicians a lot of great physicists are like that and he felt like he became quickly he got his phd at harvard became quickly an outcast of the system like the the education especially early education system didn't help them is there ways for an education system to support people like that is it this kind of multi-dimensional learning that you're missing absolutely i mean i think our education system still uses an approach that was in classrooms hundreds of years ago the textbooks have a lot to answer for in producing this very uninspiring mathematics um but yeah if you open up the subject and have people see and solve it in different ways and value those different ways somebody i appreciate it a lot is a mathematician called marion miz akani you heard of her she won the fields medal she was from iran first woman in the world to win the fields medal in mathematics she's she died when she was 40 she was at stanford but her work was entirely visual and she talked about how her daughter thought she was an artist because she was always visualizing and i attended she asked me to chair the phd defense for one of her students and i went to the defense in the math department and it was so interesting because this young woman spent like two hours sharing her work all of it was visual in fact i don't think i saw any numbers at all it's awesome and i remember that day thinking wow i could have brought her like 13 year old into this phd defense they would not recognize this as maths but when mary and ms kearney won the fields medal all these other mathematicians were saying that her work had connected all these previously unconnected areas of maths and so but when she was she also shared that when she was in school when she was about 13 she was told that she couldn't do maths she was told that by her teacher is this is iran yeah so i love that you know to be told you can't be good at maths and then go on and win the fields medal is cool i've been told by a lot of people in my life that i can't do something i'm very definitely non-standard um but all it takes is that's that's why people talk about like the one teacher that changed everything exactly all it takes is one teacher that's right that's that's the power of that so that that's like that should be inspiring to teachers like i think it is you as a single person given the education system given the incentives you have the power to truly change lives in like 20 years from now that's right i feel this medalist will walk up to you and yeah thank you you did that for me yeah absolutely and i share that with teachers that even in this broken system of what they have to do for districts and textbooks a single teacher can change kids maths relationship or other subjects and forever what's the role of the parents in this picture let's go to another difficult subject yeah that is a difficult subject um one study found that um the amount of maths anxiety parents had predicted their child's achievement in school but only if they helped with homework so that's so funny yeah but there are some interesting implications for this i mean you can see how it works if you have maths anxiety and you're helping your kids with homework you're probably communicating things like i was terrible at this at school and and that's how it gets passed on to kids so one implication is if you have a really bad relationship with maths you hate maths you have math anxiety just don't don't do math say well with your kids um but we have a on our website we have a little sheet for parents of ways to interact around maths with your kids and that's uh youtube.org that's youtube.org yes so one of the things i say to parents when i give parent presentations is even if you hate maths you need to just fake it with your kids you should be always endlessly optimistic and happy about doing maths and um i'm always curious about this so i you know i hope to have kids one day i don't have kids currently um are parents okay with like sucking at math and then trying to get their kid to be better than them essentially like is that difficult thing for a lot of parents it is difficult to have like it's almost like an ego thing like i never got good at this and i probably should have and yeah i mean to me this you want to celebrate that but i know a lot of people struggle with that like coaches in sports to to make an athlete become better than them it can be hard on the ego yeah so is that do you experience the same with parents too i think i mean i haven't experienced parents worrying that their kids will be better than them i have experienced i have experienced parents just having a really bad relationship with maths and yeah you know not wanting to help not knowing how to help saying things like another study showed that when mothers say to their daughters i was bad at maths in school their daughter's achievement goes down so we know that kids pick up on these messages and um which is why i say you should fake it but also i know that lots of people have just had a really bad relationship with maths even successful people like the undergrads i teach at stanford have pretty much always done well in maths but they come to stanford thinking maths is a set of methods to memorize and so so do many parents believe that there's one method that you memorize and then you reproduce it so until people have really had an experience of what i think of as the other maths where until they've really seen that it's a really different subject um it's hard for them to be able to shift their kids to see it differently is there for a teacher if we were to like systematize it is there something teachers can do to do this more effectively so you must you mentioned the textbook yeah so so what what are the additional things you can add on top of this whole old school traditional way of teaching that can improve the the process so i do think there's a way of teaching maths that changes everything for kids and teachers so i'm one of five writers of a new framework for the state of california new maths framework it's coming out next year and we are recommending through this maths framework that people teach in this way it's called teaching to big ideas so um at the moment people have standards that have been written and then textbooks have taken these standards and made not very good questions and if you look at the standards like i have some written down here just reading the standards it makes math seem really boring and uninspiring what what what are the kind of can you give a few examples what so this is an interesting example in third grade there are three different standards about unit squares okay um so this is one of them a square with side length one unit called a unit square is said to have one square unit of area and can be used to measure area and that's something you're expected to learn that is something that so that's a standard the textbook authors say oh i'm going to make a question about that and they translate the standards into narrow questions and then you measure success by your ability to deliver on on these standards so the standards themselves uh i think of maths and many people think maths in this way is a subject of like a few big ideas and really important connections between them um so like you could think of it as like a network map of ideas and connections and what standards do is they take that beautiful map and they chop it up like this into lots of little pieces and they deliver the pieces to schools and so teachers don't see the connections between ideas nor do the kids so anyway this is a bit of a long way of saying that what we've done in this new initiative is we have set out maths as a set of big ideas and connections between them so this is a grade three so instead of there being 60 standards we've said well you can pull these different standards to get in with each other and um also value the ways these are connected and by the way for people who are just listening we're looking at a small number of uh like big concepts within mathematics square towels measuring fraction shape and time and then how they're interconnected and so the goal is for this is for grade three for example yeah and so we've set out for the state of california the whole of mathematics k 10 as a set of big ideas and connections so we know that teachers it works really well if they say okay so a big idea in my grade is measuring and instead of reading five procedural statements that involve measuring they think okay measuring is a big idea what rich deep activity can i use that teaches measuring to kids and as kids work on these deep rich activities maybe over a few days turns out a lot of maths comes into it so we're recommending that let's not teach maths according to all these multiple multiple statements and lots and lots of short questions instead let's teach maths by thinking about what are the big ideas and what are really rich deep activities that teach those big ideas so that's the like how you teach it and maximize learning what about like from a school district perspective like measuring how well you're doing you know grades and tests and stuff like that do you throw those out or is there is not a fan of grades and tests um myself i think grades are fine if they're used at the end of a course so at the end of my maths course i might get a grade because a grade is meant to be a summative measure it kind of describes your summit of achievement but the problem we have in maths classrooms across the uh the us is people use grades all the time every week or every day even my own kids when they went through high school technology has not helped with this when they went through high school they knew they had been graded for everything they did everything and not only were they being graded for everything but they could see it in the grade book online and it would alter every class they went into so this is the ultimate what i think of as a performance culture you're there to perform somebody's measuring you you see your score um so i think that's not conducive for deep learning and yes have a grade at the end of the year but during the year you can assess kids in much better ways like teachers can a great way of assessing kids is to give them a rubric that kind of outlines what they're learning over the course of a unit or a few weeks so kids can actually see the journey they're on like this is what we're doing mathematically sometimes they self-assess on those units and then teachers um will show where what they can what the kids can do with a rubric and also write notes like you know in the next few weeks you might like to learn to do this so um so instead of kids just thinking about i'm an a kid or a b kid or i have this letter attached to me they're actually seeing mathematically what's important and they're involved in the process of knowing where they are mathematically at the end of the year sure they can have a grade but um during the year they get these much more informative measures i do think this this might be more for college but maybe not i some of the best classes i've had is when i got a special like set aside like the the professor clearly saw that i was interested in some aspect of a thing and then um i have a few in mind and one in particular but he said that um he kind of challenged me so this is outside of grades and all that that kind of stuff that basically it's like reverse psychology i don't i don't think this can be done and so i gave everything to do that particular thing so this was happened to be in an artificial intelligence class but i i think that like special treatment of taking students who are especially like excellent at a particular little aspect that you see their eyes light up i i often think like maybe it's tempting for a teacher to think you've already succeeded there but they're actually signaling to you that like you could really launch them on their way yeah um and i don't know that's too much to expect from teachers i think to to to pay attention to all of that because it's really difficult but i i just kind of remember who are the biggest the most important people in the history of my life of education and it's those people that who really didn't just like inspire me with their awesomeness which they did but also just they pushed me a little yeah like it gave me a little push and that requires focusing on the quote unquote excellent uh yes in the class yeah i think what's important though is teachers to have the perspective that they don't know who's going to be excellent at something before they give out the activity exactly and in our camp classes that we ran sometimes students would finish ahead of other students and we would say to them can you write a question that's like this but different um oh and and over time we encourage them to like extend things further i remember we were doing one activity where kids were working at the borders of a square and how big this border would be in different case sizes and one of the boys came up at the end of the class and said i've been thinking about how you'd do this with a pentagon and i said that's fantastic how do you how what does it look like with pentagon go you know find out see if you can discover so i didn't know he was going to come up and say that and i didn't have in my head like this is the kid who could have this extension task but you can still do that as a teacher when kids get excited about something or they're doing well in something have them extend it go further it's great and then you also like this is like teacher and coach you could say it in different ways to different students like for me the right thing to say is uh almost to say uh i don't think you could do this this is too hard like that's what i need to hear it's just like no i you know you there's an immediate push but with some people if they're a little bit more i mean it all has to do with upbringing how your genetics is they might be much more that might break them yeah that might break them so you have to be also sensitive to that i mean teaching is really difficult it's really difficult for this very reason it is so um what is the best way to teach math to learn math at those early few days when you just want to capture them i do something actually there's a video of me doing this on our website that i love when i first meet students and this is what i do i show them a picture this is the picture i show them and it's a picture of seven dots like this and i show it for just a few seconds and i say to them i'd like you to tell me how many dots there are but i don't need to count them i'm going to group the dots and i show it them and then i i i take it away before they've even had enough time to count them and then i asked them so how did you see it and i go around the room and amazingly enough there's probably 18 different ways of seeing these seven dots and so i asked people tell me how how you grouped it and some people see it as like an outside hole with a center dot some people see like stripes of lines some people see segments and i collect them all and i put them on the board and at the end i say look at this we are a class of 30 kids and we saw these seven dots in 18 different ways there's actually a mathematical term for this it's called groupitizing groupitizing yeah i like it it's kind of cool so turns out though that how well you groupitize predicts how well you do in maths is is it uh is it a raw talent or is it just something that you can develop i think it's i don't think you're born groupitizing i think but some kids have developed that um ability if you like and you can learn it you can so this to me is part of how wrong we have maths that we think to tell whether a kid's good at maths we're going to give them a speed test on fact on multiples but actually seeing how kids group dots could be a more important assessment of how well they're going to do maths anyway i diverge what i like to do though when i start off with kids is show them i'm going to give you math problems i'm going to value the different ways you see them and turns out you can do this kind of problem asking people how they group dots with young children or with graduate students and it's engaging for all of them is uh you talk about creativity a little bit and flexibility in your book limitless what's the role of that so it sounds like there's a bit of that kind of thing involved in grupotizing yeah yeah i love this term so what's what would you say is the role of creativity and flexibility in in the learning of math i think what we know now is that what we need for this 21st century world we live in is a flexible mind it's school should not really be about teaching kids particular methods but teaching them to approach problems with flexibility being creative thinking creatively is really important so people don't think the words maths and creativity come together but i that's what i love about maths is the creative different ways you can see it and so helping our kids there's a book i like a lot but i've been by physicists you probably know this book could elastic you might know it um and it's about how we want elastic minds same kind of thing flexible creative minds and schools do very little on developing that kind of mind they do a lot of developing the kind of mind that a computer now does for us memorization memorization doing procedures a lot of things that we spend a lot of time in school on in the world when kids leave school a computer will do that and better than they will but that creative flexible thinking we're kind of ground zero at computers being able to engage in that thinking maybe we're a little above ground zero but um the human brain is perfectly suited for that creative flexible thinking that's what humans are so great at so i would like the balance to shift in schools maybe you still need to do some procedural kind of thinking but there should be a lot more of that creative flexible thinking and uh what's the role of other humans in this picture so collaborative yeah learning so brainstorming together so creativity as it emerges from the collective intelligence of multiple humans yeah super important and um we know that also helps develop your brain that social side of thinking and i love mathematics collaboration where people build on each other's ideas and they come up with amazing things i actually taught a hundred students calculus at stanford recently undergrads and we taught them to collaborate so these students came into stanford and most of them were against collaboration in maths this is before covered in person yeah it was just before covert hit it was 2019. and um you said they're against uh so yeah so it's really interesting so they'd only experience maths individually as in a kind of competitive individual way and if they had experienced it as group work it had been a bad experience like maybe they were the one who did it all and the others didn't do much so they were kind of against collaboration they didn't see any role for it in maths and we taught them to collaborate and it was hard work because as well as the fact that they were kind of against collaboration they came in with a lot of like social comparison thinking so i'm in this room with other stanford undergrads and they're better than me or so when we send them to work on a maths problem together the first one was kind of a disaster because they were all like they're better than me they're faster than me they came up with something i didn't come up with so we taught them to let go of that thinking and to work well together and one of the things we did we decided we wanted to do a pre and post test at the end of this teaching it was only four weeks long but we knew we didn't want to give them like a timed test of individual work so we gave them an applied problem to do at the beginning and we gave them to do in pairs together and we gave each of them a different colored pen and said work on this activity together and keep using that pen so then we had all these pieces of student work and what we saw was they just were on separate parts of the paper uh so this little like red pen section and a green pen section and they didn't do that well on it even though it was a problem that middle or high school kids could do but it was like a problem-solving kind of problem and then we gave them the same one to do at the end gave them the same colors and it actually they had learned to collaborate and not only were they collaborating the second time around but that boosted their achievement and the ones who collaborated did better on the problem collaboration is important having people and what was so eye-opening for these undergrads and they talked about it in lovely ways was i learned to value other people's thinking on a problem and i learned to value that other people saw it in different ways and it was quite a big experience for them that they came out thinking you know i can do maths with other people people can see it differently we can build on each other's way ways of thinking i got a chance to i don't know if you know who daniel kahneman has got a chance to interact with him and like the first because he had a few but one famous collaboration throughout his life uh with taversky and just like you know he hasn't met me before uh in person but just the number of questions he was asking just the curiosity so i think one of the skills the collaboration itself is a skill and i remember my experience with him was like okay i get why you're so good at collaboration because he was just extremely good at listening and genuine curiosity about how the other person thinks about the world sees the world and then together he's he pulled me in in that particular case he doesn't know in particular like that much about autonomous vehicles but he kept like asking all these questions and then like 10 minutes in we're together trying to solve the problem of autonomous driving and like and that i mean that's really fulfilling that's really enriching but it also in that moment made me realize it's kind of a skill because you have to kind of put your ego aside yep put your view of the world aside and try to learn how the other person right and the other thing you have to put aside is this social comparison thinking like if you are sitting there thinking wow that was an amazing idea he's so much better than i am that's really gonna stop you taking on the value of that idea and so there's a lot of that going on between these stanford students when they came and yeah but trying to help them let go of that one of the things i've discovered just because being a little bit more in the public eye how rewarding it is to celebrate others yeah and how much is going to actually pay off in the long term yeah so this kind of silo thinking of like i want to prove to a small set of people around me that i'm really smart and do so by basically not celebrating how smart the other people are that's actually maybe short term it seems like a good strategy but long term it's not and i think if you practice at the student level and then at the career la at every single stage i think that's ultimately i i agree with you i think that's a really good way of thinking about it you mentioned textbooks you said and you didn't say it you know um maybe textbooks isn't the perfect way to teach mathematics but i i love textbooks there's they're like pretty pictures and they smell nice and they open i mean i talk about like physical some of my greatest experiences have been just like oh like because they're really well done when we're talking about basic like high school calculus biology chemistry those are like those are incredible it's like wikipedia but with color and and nice little you must have seen some good textbooks if they had pretty pictures in color yeah i mean i remember i guess it was very very standard like ap ap calculus ap biology ap chemistry i felt those are like some of the happiest days of my life in terms of learning was high school because it was it's very easy honestly it felt hard at the time but you're basically doing a um whirlwind tour of all of science yeah yeah without having to pick you do literature you do like shakespeare your calculus biology physics chemistry what else anatomy physiology computer science without like nobody's telling you what to do with your life you're just doing all those things that's a good thing you're right but i remember the textbooks weren't i mean maybe i'm romanticizing the past but i remember they weren't they're pretty good um but so you think what role do you think they play still and like in this more modern digital age what what's the best materials with which to do these kinds of educations well i'm intrigued that you have such a good experience with textbooks i mean i can remember loving some textbooks i had when i was learning and i love books i love to pick up books and look through them but a lot of maths textbooks are not good experiences for kids they um we have a video on our website of the kids who came to our camp and one of the students says in maths you have to follow the textbook the textbooks kind of like the bible you have to follow it and every day it's slightly different like on monday you do 2.3.2 and on tuesday you do 2.3.3 and on wednesday and you never go off that that's like every single day and that's not inspiring for a lot of the kids so one of the things they loved about our camp was just that there were no books even though we gave them sheets of paper instead they still felt more free because they weren't just like trotting through exercises exercises so um like what a textbook allows you is like you're the the very thing you said they might not like the two point yeah point three two point if you feels like you're making progress and like it's little celebrations because you do the problem and it seems really hard and you don't know how to do it and then you try and try and then eventually succeed then you make that little step and yeah further progress and then you get to the end of a chapter and you get to like it's closure you're like yeah all right i got that figured out and then you go on to the next chapter i can see that i mean i think it could be in a textbook you can have a good experience with a textbook but it what's really important is what is what is in that textbook what are you doing inside it and i mean i grew up in england and in england we learn maths we don't have this separation of algebra and geometry and i don't think any other country apart from the us has that but i look at kids in algebra classes where they're doing algebra for a year and i think i would have been pretty bored doing that um by the way can we can we analyze your upbringing real quick um why do british folks call mathematics maths why is it the plural is it is it because of everything you're saying where it's a bunch of sub-disciplines yeah i mean mathematics is sure is supposed to be the uh the map the different maths that you look at whether you think of that as topics like geometry and probability or or i think of it as maths is just multi-dimensional lots of ways but that's why it was called mathematics and then it was shortened to maths and then for some reason it was just math in the us but to me math has that more singular feel to it and there's an expression here which is do the math which basically means do a calculation that's what people mean by do the math so i don't like that expression because no math could be anything it doesn't have to be calculation and so yeah i like maths because it has more of that broad feel to it yeah i love that maths kind of emphasizes the multi-dimensional like yeah variety of different different disciplines different approaches yeah okay uh what so but outside of the textbook what do you see like broadly being used you mentioned sebastian through and moocs online education do you think that's an effective so can be i mean online having great teachers online obviously extends those teachers to many more people and that's a wonderful thing um i have quite a few online courses myself i got the bug working with sebastian when he was had released his first mooc and i thought maybe i could do one in maths education and i didn't know if anybody would take it um i remember releasing it that first summer and it was a free online class and 30 000 maths teachers took it that first summer and they were all talking about it with each other and sharing it and it was like took off in fact it was that mooc that caught got me to create you cubed with kathy williams who's the co-founder um because people took the mooc and then they said okay what now i finished what what can i have next and so that was where we made our website but um so yeah i think online education can be great i do think a lot of the moocs don't have great pedagogy they're just a talking head and it you can actually engage people in more active ways even in online learning so i learned from the udacity principle when i was working udacity never to talk more than like five minutes and but then and then to ask people to do something so that's the sort of pedagogy of the online classes i have there's a little bit of presenting something and then people do something and there's a little bit more because i think if you have a half hour video you just you know switch off and start doing other things so the the way udaci did it is uh like five ten minute like bit of teaching and then with some visual stuff perhaps and then there's like a quiz then you answer a question yeah yeah now that that's that's yeah that's really effective you mentioned youtube so what's the mission what's the goal you mentioned how it started but what's uh um yeah where are you at now and what do you what's your dream with it or what are the kind of things that people should go and check out on there yeah we started you cubed i guess it was about five years ago now and we've had over 52 million visitors to the site so i'm very happy about that and our goal is to share good ideas for teaching with teachers students parents in maths and to help we have a sort of subgoal of erasing maths anxiety that's important to us but also to share maths as this beautiful creative subject and um it's been really great we have lessons on the site but one of the things one of the reasons i thought this was needed is there's a lot of knowledge in the academy about how to teach maths well loads and loads of research and journals and lots of things written up but teachers don't read it they they don't have access to it they're often behind pay walls they they're written in really inaccessible ways so people wouldn't want to read them or understand them so this i see is a big problem you have this whole industry of people finding out how to teach well not sharing it with the people who are teaching so um that's why we made youtube and instead of just putting articles up saying here's some things to read about how to teach well we translated what was coming from research into things that teacher could use so lessons there were videos to show kids and um there were tips for parents there were all sorts of things on the site and it's been amazing as we had we took inspiration from the week of code which got teachers to focus on coding for a week and um we have this thing called the week of inspirational maths and we say just try it for a week just just give us one week and try it and see what happens and so it's been downloaded millions of times teachers use it every year they start the school year with it and what they tell us is it was amazing the kids lights were on they were excited they loved it and then the week finished and i opened my textbooks and the lights went out and they were not interested yeah but uh but getting that first inspiration is still powerful i mean it is i i wish i mean my what i would love is if we could actually extend that for the whole year we're a small team at stanford and we're trying to keep up with great things to put on the site um we haven't the capacity to produce these creative visual math tasks for every year group for every day but i would love to do that how difficult is it to do i mean to come up with uh visual formulations of these uh big important topics you need to think about in a way that you know that uh that that you could teach i mean it we can do it we actually we went from the week of inspirational maths and we made k-8 maths books with exactly that big ideas rich activities visuals we just finished the last one we've been doing it for five years and it's been exhausting and we just finished so now there's a whole k-8 set of books and they're organized in that way these are the big ideas here are rich deep activities um they're not though what you can do every day for a year that so some teachers use them as a kind of supplement to their boring textbook and some people have said okay this is the year this book tells us what the year is and then we'll supplement these big activities with um so they're being used and teachers really like them and are really happy about them i just always want more and i guess one of the things i would like for you cubed one of my personal goals is that every teacher of maths knows about youtube at the moment um a lot of teachers who come to us are really happy they found it but there's a lot of other teachers who don't know that it exists i hope this helps yeah from a student perspective and not in the classroom but at home studying and you know is there some advice you can give on how to best study mathematics so what's the role of the student outside the classroom yeah i think one thing we know is a lot of people when they review material whether it's maths or anything else don't do it in the best way i think a problem a lot of people have is they read through maybe a teacher's explanation or a way of doing maths and it makes sense and they think oh yeah i've got that and they move on but then it's not until you come to try and work on something and do a problem that you actually realize you didn't really understand it just seemed to make sense so i would say this is also something that neuroscientists talk about to keep giving yourself questions is a really good way to study rather than looking through lots of material it's almost like giving yourself lots of tests is a good way to actually deeply understand things and know what you do when you don't understand so would the questions be in the form of the material you're reviewing is the answer to that question or is it almost like beyond it's the polygon thing you mentioned from a square is it almost like i wonder what is the bigger picture i was kind of asking like how's this extended and so on yeah that that that would be great and it's a similar i mean a question i get asked a lot is about homework well it's a good thing for kids to do for homework and one of the recommendations i give is to not have kids just do lots of questions for homework but to actually ask them to reflect on what they've learned like what was the big idea you were you learned today or what did you find difficult what did you struggle with what was something that was exciting um then kids go home and they have to kind of reflect in a deeper way a lot of times i don't if you have this experience as a math student lots of people do kids are going through maths questions they're successful they get them right but they don't even really know what they're about they and a lot of kids go through many years of maths like that doing lots of questions but that really knowing what even the topic is or what it's about what it's important for so having students go back and think at the end of the day what was the big idea from this maths lesson why is it important where would i find that in real life those are really good questions for kids to be thinking about it's probably for everybody to be thinking about i think most of us go through life never asking like the bigger question almost like you know those like layers of why questions that kids ask when they're very young yeah we need to keep doing that we do like what uh that's the you know whatever the term is you call first principles thinking some people call it that which is like why are we doing it this way so one nice thing is to do that because there's usually a good answer like the reason we did it this way is because it works for this reason but then if you want to do something totally novel is you'll say well we've been doing it this way um because of historical reasons but really this is not the best way to do it there might be other ways and that's how invention happens right and then you get you know that's really useful in every aspect of life like choosing your career choosing your um i don't know what where you live yeah who your like romantic partner is like everything everything yeah and i think it probably starts doing that in math class that would be good if we started doing i want i mean i wonder i i probably didn't do very much of that for most of my education asking why except for later much later in the subjects on like grad school when you're doing research on them when you're first tasked with doing something novel using this or solving a problem really outside the classroom they have to publish on it's the first time you think wait why are these things uh interesting useful which are the things that are useful and yeah i guess that was that would be nice if we did that much earlier that uh the quest of invention yeah yeah i mean one of the sad pieces of research data i think about is the questions kids ask um in school goes down like in a linear uh you know progression from in the early years you can't stop kids asking those questions but they learn not to ask the questions i think you told somewhere about an early memory you had in your own education where you asked the question or maybe that was an example you gave but it was shut down oh yeah you've listened to something i said yeah i don't remember where it was it was something yeah it caught me yeah i remember it really vividly what can you tell uh the memory yeah it was it's funny i can remember it must have really impacted me in that moment because you know how there's lots of hours of school you don't remember at all but anyway um i i remember where i was sitting and everything i was in a high school maths class although they don't call it in england and um the teacher said and it was like the first class of this teacher's class and he said ask if you have any questions so at one point i put my hand up and i said i have a question and he said something like that's your question um [Laughter] and i was like oh okay i'm not asking any more questions hard in a way where you didn't wanna you the lesson you learned from that is i'm not gonna ask yeah that was absolutely that's nice that's the last question i'm asking and um [Music] i was yeah he was the chair of the maths department i remember that really well so maybe because of that experience one of the things we encourage when we teach kids is asking questions and we value it when they ask questions we put them up on walls and celebrate and um it's funny because i wish there was a feedback signal because he probably to put a positive spin on it he probably didn't realize the negative impact he's had in that moment right if he only knew see this is probably when you're more mature in grad school i had an amazing professor named ali shakafande in uh computer science and he would get he encouraged questions but then he would tell everybody how dumb their questions are but it was it was done i guess if you show if you say it with love and respect behind it then it's more like a friendly humorous encouragement for more questions yeah it's an art right yeah to do it you're right and then it's very hard you have to time it right because that's probably that kind of humor is probably better for when you're uh in grad school versus when you're in the early education right well and i guess kids or young people get whether somebody's doing it to be funny or you know has it there's i mean this is why i teach you so hard even your tone can be impactful it's so sad because like for for that particular human the teacher you could just had a bad day and one statement can have a profound negative impact i know sadly that maths there's a lot of maths teachers who have that kind of approach and they i think they're suffering from the fact that they think people are math people are not math people and that comes across in their teaching but on the flip side one positive statement yeah keep them going that's right that is the flip side of that and i myself had like one teacher who was really amazing for me in maths and she kept me in the subject like who was she she was um her name was mrs marshall [Laughter] um she was my a level maths teacher so i was in i mean in england you do lots of subjects so you're 16 and then you choose like three or four subjects so i chosen maths and you go to higher levels probably equivalent more to a master's degree in the us because you're more specialized but anyways she was my teacher and for the first time in my whole career in maths she would give us problems and tell us to talk about them with each other and so here i was sitting there like 17 talking with friends about how to solve a math problem and that was it that was the change that she made but it was profound for me i because like those calculus students i started to hear other people's ways of thinking and seeing it we would talk together and come up with solutions and i was like that was it that changed maths for me and i know so it wasn't some kind of personal interaction with her it was more like she uh she was the catalyst for that collaborative experience i mean yeah the many ways teachers can inspire kids i mean sometimes it's a personal message but it can be your teaching approach that changes maths for kids you know uh cal newport he uh he wrote a book called deep work and he's a mathematician a theoretical computer scientist and he talks about the kind of the focus required yeah to do that kind of work is there something you can comment on you know we live in a in a world full of distractions that that seems like one of the elements that makes studying and especially the studying of subjects that require thinking like math does difficult is there something from a student perspective from a teacher perspective that encourages deep work that you can come up with yeah i think giving kids really inspiring deep problems and we have some on our website is a really important experience for them um even if they only do it occasionally but it's really important they actually realize i i do i give a problem out often when i'm working with teachers and i say to them all right i'm going to check in with you after an hour and they're like an hour they think it's shocking and then they work on this problem and after an hour i say okay how are we doing like an hour's gone by how is this possible yeah and so everybody needs those like rich deep problems most kids go through their whole maths experience of however many years never once working on a problem in that kind of deep way so i the the undergrad class i teach at stanford we do that we work on these deep problems every session and the students come away going okay i never want to go back to that maths relationship i had where it was just all about quick answers i i just don't want to go back to that and so we can all all teachers can incorporate those problems in their classrooms maybe they don't do them every day but they at least give kids some experience of being able to work slowly and deeply and to go to deeper places and not be told they've got five minutes to finish 20 questions yeah well part of it is also just the um the exercise of sitting there maintaining focus for prolonged periods of time that's not often i mean um that's a skill yeah it's a skill that uh that also could be discouraging like if you don't practice it just sitting down for 10 minutes straight and maintaining deep focus could be exceptionally challenging like if you're really thinking about a problem and to re i think it's really important to realize that that's a skill that you can just like a muscle you can build you can start with five minutes it goes to 10 minutes to 30 into an hour and and to be successful i think in certain subjects like mathematics you want to be able to develop that skill otherwise you're not going to get to the the really rewarding experience of solving these problems definitely there was a survey done of kids in school where they were asked how long will you work on a maths problem before you give up and decide it's not possible to solve that question and the result on average across the kids was two minutes yeah so that's a bad sign but that's that was the powerful sign that uh they need to learn to not give up so quickly yeah uh we mentioned offline because we've been talking so much about visualization uh grant sanderson three luanne brown so he's inspired millions of people with the kind of uh exactly the kind of way of thinking that you've been talking about yeah i love his work converting sort of uh mathematical concepts into visual uh like uh visually representing them exploring them in ways that uh help you illuminate like the concepts um what do you think is the role of that so he uses mostly programmatic visualization so it's the thing i mentioned where there's like animations created by writing uh computer programs um like what what do you think how scalable is that approach but in general what do you think about his impression i think it's amazing i should work with him i i can share some of our visuals and he can make them in that amazing way um so part of his storytelling part of it is like it's creating the visuals and then weaving a story with those visuals that kind of builds like there's also i mean there's also drama in it you start with a small example and then you kind of all of a sudden there's a surprise yeah yeah yeah and it really i mean it makes you fall in love with the that's right with the concept yeah he does talk about that his sense is like some of the stuff he he he doesn't feel like he's teaching like the core curriculum which is something you know he sees himself as an inspirational figure but because i think it's too difficult to kind of convert all of the curriculum into those elements and probably you don't need to i mean you if people get to experience mathematical ideas in the way that he shares them um that will change them and it will change the way they they think and maybe they could go on to take some other mathematical idea and make it that beautiful well he does that uh there's a he created a library called manum and he open-sourced it and that library is the uh people should check it out it's written in python and it uses some of those same elements like it allows you to animate equations and animate little shapes like people that you know he has a very distinct style in his videos and what that resulted in even though from a software engineer perspective the code he released is not like super well documented or perfect but him releasing that now there's all of these other people educating it and the cool to me personally the coolest thing is to see like people they're not you know don't have like a million subscribers or something is they they they have just a few views on the video but it just seems like the process of them creating a video where they teach is like transformative to them yeah from a student perspective it's the old feynman thing the best way to learn is to teach right and then him releasing that into the wild is yeah it shows that that impact yeah absolutely i think just giving people that idea that you can do that with maths and other subjects they're bound to be people all around who can create more which is cool yeah i definitely so i recommend people do like javascript or python you can you can build like visualizations of most concepts in high school math you can do a lot of kinds of visualizations and doing that yourself plus if you do that yourself people really love it people actually people love visualizations of math yeah because they i mean it's something in us that loves patterns loves figuring out difficult things and the patterns in that are then are unexpected in some way yeah have you ever noticed that hotels are always filled with patterns i was just noticing at the hotel i mean now all of their carpets are patent carpets and then they have patterns on the walls yeah so yeah we humans love the symmetry and patterns the breaking of symmetry patterns yeah and it's funny that we don't see mathematics is somehow intricately connected to that but it is right i mean that's one of the perspectives i love students to take is to be a pattern seeker in everything in in yeah certainly in all of maths i mean you can think of all of maths as a kind of subject of patterns and not just visual patterns but you know when you think about multiplying by five and the fact you can you know if you if you're multiplying 18 times 5 you can instead think of 9 times 10. that's a pattern that always works in mathematics you can have a number and double number and so yeah i just think there are patterns everywhere and if kids are thinking their role is to see patterns and find patterns it's really exciting what do you think about like mit open courseware and the release of lectures by universities i think it's good i think it's good i think the that is what started the mooc i did was using that platform so you ultimately think like the udacity model is a little bit more effective than just a plain two-hour lecture i think there's definitely you can bring in good pedagogy into online learning and i think the idea of putting things online so that people all over the world can access them it's great i don't think the initial excitement around moocs sort of democratizing education and making it more equal um came about because they found that the people taking moocs tended to be the more privileged people so that was i think there's still something to be found in that there's still more to be done to help that online learning reach those principles but um definitely i think it's it's a good invention and i have an online class that's for kids that's little free class that gives them a topic it's called how to learn maths it shows maths as this visual creative subject and it shares mindset and some brain science and um kids who take it do better in maths class we've studied it with like randomized controlled trials and given it to middle school kids and other middle school kids who don't take it but are taught by the same teachers so their teachers are the same and the kids who take the online class end up 68 more engaged in their maths class and do better at the end of the year so that's a little six session 15 minute class and it changes kids maths relationships so it is true that we can do that with some words that aren't you know not it's not a huge change to the education system do you have advice for young people we've been talking about mathematics quite a bit but in terms of their journey through education through their career choices through life maybe middle school high school undergrad students how to live a life that they can be proud of i think if i were to give advice to people especially young people my advice would be to always it sounds really corny but always believe in yourself and know that you can achieve because although that sounds like obvious of course we want kids to know that they can achieve things i know that millions of kids are in the school system have been given the message they cannot do things and adults too they have the idea oh i did okay in this i went into this job because those other things i could never have done okay in so actually when they hear hey maybe you could do those other things even adults think you know maybe i can and they go back and they encounter this knowledge and they relearn things and they change careers and amazing things happen so for me i think that message is really important you can learn anything scientists try and find a limit they're always trying to find a limit like how much can you really learn what's the limit to how much you can earn and they always come away not being able to find it people can just go further and further and further and that is true of people born with brain um you know areas of their brain that aren't functioning well that have what we call special needs some of those people also go on to develop and do amazing things so i think that really experiencing that knowing that feeling not just saying it but knowing it deeply you can learn anything is um something i wish all people would have actually also applies when you've achieved some level of success too what i find like in my life with people that love me when you achieve success they keep celebrating your success and they want you to keep doing the thing that you were successful at as opposed to believing in that you can do something else something big whatever your heart says to do right and one of the things that i realized the value of this um you know quite recently which is sad to say is how important it is to seek out uh when you're younger to seek out mentors to seek out the people like surround yourself with people that will believe in you yeah it's like a little bit of is on you it's like uh you don't get that um sometimes if you go to like grad school you think you kind of land on a mentor maybe you pick a mentor based on the topic they're interested in but the reality is the people you surround yourself with they're going to define your life yeah trajectory so select people they're really true and get away from people who don't believe you don't yeah sometimes parents can be that they love you deeply but they be you know they set it's the math thing we mentioned they might set certain constraints on the beliefs that you have and so in that if you're interested in mathematics and your parents are not that interested in it don't listen to your parents on that one dimension exactly yeah and if people tell you you can't do things you have to hear from other people who who believe you i think you're absolutely right about that so sad the number of people who've had those negative messages from parents in my limitless mind book i interviewed quite a few people who'd been told they couldn't do math sometimes by parents sometimes by teachers and fortunately they had got other ideas at some point in their life and realized there was this whole world of mathematical thinking that was open to them so it's really important that people do connect with people who believe in them however hard that might be to find those people what do you hope the education system education in general looks like 10 20 50 100 years from now are you optimistic about this future yeah i definitely have hope there is change can happen in the education system in recent years it's been microscopically slow and um but i do actually see change happening like we were talking earlier that data science is now a course you can take in high school instead of algebra 2 and that's pretty amazing because that content was set out in 1892 and hasn't changed since then and so now we're actually seeing a change in the content of high school so i'm amazed that that's happening and very happy it's happening but so change is very slow in education usually but when you look ahead and think about all that we know and all that we can offer kids in terms of technology you've got to think that 100 years from now education will be totally different to the way it is now maybe we won't have subject boundaries anymore because those don't really make much sense it's interesting to think how certain tools like programming maybe they'll be deeply integrated and everything you think yeah you would think that all kids are growing up learning to program and create so um i just think i mean the system of schooling we have now people call it a factory model it's not designed to inspire creativity and i feel like that will also change people might look back on these days and think they were hilarious but um maybe we'll in the future kids will be doing their own programming and they'll be able to learn things and find out things and create things even as they're learning and maybe the individual subjects boundaries will go data science itself coming into the education system kind of illustrates that because people realize it doesn't really fit inside any of the subjects so what do we do with it where does it go and who teaches it so it's already raising those kind of questions and questioning how we have these different subject boundaries so you've seen data science be integrated into the curriculum yes it's happening across the united states as we speak i wonder how that got initiated like how does change happen in the education system is it just a few revolutionary like it does i think so i think so it's been an interesting journey seeing data science take off actually it um there was a course that was developed in 2014 by some people who thought data science was a good idea for high schoolers and then after some kids took the course and nothing bad happened to them they went to college and people started to accept it more and then this was a big piece of the change in california the uc system communicated they sent out an email last year to 50 000 high schools saying we now accept data science kids can take it instead of algebra two that's a perfectly legitimate college pathway so that was like a big green light for a lot of schools who are like wondering about whether they could teach it so i think it happens in small spaces and expands so now it goes viral yeah in this latter age then it goes viral california's ahead um i think in creating courses and having kids go through it but it's suddenly when i last looked there were 12 states that were allowing data science as a high school course and i think by next year that will have doubled or more so change is happening joe i as i said i think mathematics is uh is truly a beautiful subject and you having an impact on millions of people's lives by educating them by inspiring teachers to educate in the ways that you've talked about in multi-dimensional ways in visual ways um i think is incredible so you're spreading beauty appreciate that so i really really appreciate that you spend your valuable time with me today thank you for talking thank you it's really good to talk to you thanks for listening to this conversation with joe bowler to support this podcast please check out our sponsors in the description and now let me leave you with some words from albert einstein pure mathematics is the poetry of logical ideas thanks for listening and hope to see you next time you
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Channel: Lex Fridman
Views: 179,080
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Keywords: agi, ai, ai podcast, artificial intelligence, artificial intelligence podcast, education, jo boaler, learning, lex ai, lex fridman, lex jre, lex mit, lex podcast, math, mathematics, maths, mit ai, stanford, youcubed, математика
Id: KZnGSVwIpeU
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Length: 90min 40sec (5440 seconds)
Published: Mon Sep 27 2021
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