Difference between revisions of "Deliberate practice for learning proof-based math"
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** '''focused''':<ref name=peak/> "is focused (the person is intently interested in improving, rather than having their attention elsewhere)": i'm not really sure if this requirement is satisfied... like, i guess you're really focused on solving the problem in front of you, or really trying to understand what the textbook is saying. so maybe that counts? on the other hand, i don't think you are usually consciously aware of like "i'm trying to solve this problem so that i can improve in a specific skill"? | ** '''focused''':<ref name=peak/> "is focused (the person is intently interested in improving, rather than having their attention elsewhere)": i'm not really sure if this requirement is satisfied... like, i guess you're really focused on solving the problem in front of you, or really trying to understand what the textbook is saying. so maybe that counts? on the other hand, i don't think you are usually consciously aware of like "i'm trying to solve this problem so that i can improve in a specific skill"? | ||
** '''involves feedback''':<ref name=peak/> as explained above, this is one of the difficulties. | ** '''involves feedback''':<ref name=peak/> as explained above, this is one of the difficulties. | ||
− | ** "involves getting out of one's comfort zone, practicing things on the edge of one's ability": i think this one is automatically satisfied. you don't solve problems that are obvious. you're always trying to solve problems that are new, that make you curious (i think one of the things curiosity tracks well is problems that are just at the edge of your ability, that seem "fun" because they are doable). | + | ** '''getting out of one's comfort zone''':<ref name=peak/> "involves getting out of one's comfort zone, practicing things on the edge of one's ability": i think this one is automatically satisfied. you don't solve problems that are obvious. you're always trying to solve problems that are new, that make you curious (i think one of the things curiosity tracks well is problems that are just at the edge of your ability, that seem "fun" because they are doable). |
− | * | + | * "informed by an understanding of how to do well" / "the presence of a theory of skill and practice guided by that theory": i'm pretty vague on what counts as a theory. like, i'm guessing "solve lots of problems and you'll eventually get good at math" isn't a theory (yikes, that sounds like naive practice!). |
another thought is that deliberate practice is often motivated as a way to prevent plateauing of skill; but in math, there is no worry that you are plateauing! as long as you're learning new math and solving problems you haven't solved before, ''and'' you're not forgetting too quickly ([[spaced repetition]] helps a lot with this), you can be sure that you're getting better all the time. | another thought is that deliberate practice is often motivated as a way to prevent plateauing of skill; but in math, there is no worry that you are plateauing! as long as you're learning new math and solving problems you haven't solved before, ''and'' you're not forgetting too quickly ([[spaced repetition]] helps a lot with this), you can be sure that you're getting better all the time. |
Revision as of 05:16, 25 October 2021
What would a deliberate practice for math look like? Specifically, while self-studying undergraduate-level and graduate-level proof-based math. (So I'm excluding earlier stages of learning math, and also excluding research work. I'm interested in the latter, but that seems like a much more difficult problem to talk about.)
Contents
Some difficulties with applying deliberate practice in this setting
https://commoncog.com/blog/the-problems-with-deliberate-practice/ search "What problems exist for practice in fields where no good training methods exist?"
"ill-defined sub skills" I think applies to math. What even are the separate skills in undergraduate math? ability to read a proof? ability to solve problems? those seem too broad as categories to me. maybe there's like "ability to solve a particular kind of problem". but textbook exercises don't come tagged with specific properties, so you can't really filter on these to improve your skill in particular ways.
undergrad proof problems are generally too long that you can't do drills like "get at least 95% correct on these problems" -- you can't run that many trials to practice.
can we break skills up using the images here at "Kathy Sierra’s Badass: Making Users Awesome" (see in particular the final image). so in a proof problem, i guess one thing that you could do (and that is commonly done) is to make the problem easier by relaxing some of the hypotheses, or proving it in a special case. this is a kind of thing that is already done though. another way to make it easier is to peek at the solution, and then try to solve it. that's also already done.
"lack of feedback" -- this one also applies when self-studying math. the only ways to get feedback are by looking up solutions or by posting to something like math SE. book/subfield-specific discord servers might finally change this, but it will be slow. This is related to Feynman technique fails when existing explanations are bad (when existing explanations are bad, you can't even use techniques like Feynman technique to generate pseudo-feedback).
but there are things like Anki i guess.
to some extent, as you get better at math, the better you get at generating your own feedback / using the fact that the math does or doesn't work as feedback. but that's still not the kind of feedback that deliberate practice is talking about, i think.
i think one can design e.g. multiple choice questions that will give good feedback. and you could even have a goal like "get 95% on this MCQ".
Parts of the definition of deliberate practice
https://www.lesswrong.com/tag/deliberate-practice
let's look at the requirements:
- purposeful practice:
- well-defined, specific goals[1] "well-defined goals (such as doing something 3 times in a row with no mistakes)": this, as explained above, is one of the difficulties. proofs are long and take a lot of time to do. you also can't just "regenerate" problems using random number generators the way you can with high school level problems. you can still have a well-defined goal like "solve the problems in this section" i guess, but that doesn't seem to be what this requirement is about? How can we judge a session of math study to be a success? maybe "I solved a problem" is good enough... but it sounds boring. This is more possible/meaningful with spaced proof review or regular Anki prompts, however. "The key thing is to take that general goal—get better—and turn it into something specific that you can work on with a realistic expectation of improvement."[1] So maybe one idea is to say something like "solve this problem while keeping a specific strategy in mind [e.g. don't forget to use induction if it's possible; try to generalize but also try to look at specific examples]"
- focused:[1] "is focused (the person is intently interested in improving, rather than having their attention elsewhere)": i'm not really sure if this requirement is satisfied... like, i guess you're really focused on solving the problem in front of you, or really trying to understand what the textbook is saying. so maybe that counts? on the other hand, i don't think you are usually consciously aware of like "i'm trying to solve this problem so that i can improve in a specific skill"?
- involves feedback:[1] as explained above, this is one of the difficulties.
- getting out of one's comfort zone:[1] "involves getting out of one's comfort zone, practicing things on the edge of one's ability": i think this one is automatically satisfied. you don't solve problems that are obvious. you're always trying to solve problems that are new, that make you curious (i think one of the things curiosity tracks well is problems that are just at the edge of your ability, that seem "fun" because they are doable).
- "informed by an understanding of how to do well" / "the presence of a theory of skill and practice guided by that theory": i'm pretty vague on what counts as a theory. like, i'm guessing "solve lots of problems and you'll eventually get good at math" isn't a theory (yikes, that sounds like naive practice!).
another thought is that deliberate practice is often motivated as a way to prevent plateauing of skill; but in math, there is no worry that you are plateauing! as long as you're learning new math and solving problems you haven't solved before, and you're not forgetting too quickly (spaced repetition helps a lot with this), you can be sure that you're getting better all the time.
Goals
part of the thing to figure out here is why one wants to "get better at math"? what's the ultimate goal here? depending on this goal, i think the kinds of practice to do will be different.
unlike something like competitive chess or swimming, there isn't a single obvious goal one is trying to optimize for (although even in e.g. swimming you could optimize for goals other than getting as fast as possible). so the question has to be asked in math.
See also
References
External links
some links (that i didn't find very helpful, but this is all that i was able to find)
- https://news.ycombinator.com/item?id=2515455
- https://www.reddit.com/r/math/comments/71saol/what_does_deliberate_practice_mean_for_math/
- https://matheducators.stackexchange.com/questions/11104/how-can-i-implement-the-principles-of-deliberate-practise-in-my-mathematical-stu
What links here
- Deliberate practice for math (redirect page) (← links)