Is this still a relevant skill-set to be good at these days? I feel like it's a bit like writing cursive or being able to have good handwriting in general. It's just not that useful anymore unless you're in very specialized fields that require you to be good at mental math and even then how many situations are you in where you're put on the spot that you have to mentally solve something? There's probably more useful things to keep in your brain than these types of tricks.
I don't mean to be so negative though. I certainly think it's very fascinating and interesting just from a pure mathematical perspective. However we also have to consider the utilitarian perspective when asking "why" many people aren't good at something like this anymore.
Although I am not one of "math" people, I think that the pervasive opinion that "what I don't need in everyday situations and work I do not need" is a BIG mistake.
Instead elaborating, I'll just make an analogy: We do not need to run, or to lift weights, nor exercise at all. We have transportation and tools. But, those activities are still highly valuable, even though we do not use them for work nor need them in everyday situations, because our body evolved to need them.
So, math puzzles may not be directly useful, but they prepare the brain for other utilitarian activities. Ok, maybe we do not need puzzles, but math tasks in general is one of the best if not THE best exercise for abstract logical thinking.
Though exercising is not valuable because we need it, it's valuable because it keeps you healthy. I'm not sure how much evidence there is that maths keep you healthy. Sure, if you enjoy it, but if you hate it?
At least exercise keeps you healthy even if you hate it.
It is still good to have basic math numeracy, because swindlers are sadly not a dying breed. It's useful to listen to propaganda and have a feel for whether what the person is saying can even possibly be true.
For example, if somebody says 40 million people in the US are [afflicted with|believe|whatever] something, I automatically think "that's about 1 in ten" and my bullshit filter makes a judgement.
So getting precise numbers is perhaps not so important (maybe it never really was), but being able to estimate quickly it good.
And, FWIW, you'd be surprised how well you can do at the grocery store if you estimate your bill simply by rounding every item to the nearest dollar. Easy to track, comes out remarkably close.
here's an old paper excerpt[1] about the "use-it-or-lose-it" nature of your brain:
> The protective effects of an active cognitive lifestyle arise through multiple biological pathways, new research suggests. For some time researchers have been aware of a link between what we do with our brains and the long term risk for dementia. In general, those who are more mentally active or maintain an active cognitive lifestyle throughout their lives are at lower risk. New research throws some light on what may be happening at the biological level.
> but math tasks in general is one of the best if not THE best exercise for abstract logical thinking.
I think you are conflating 'Math' and 'mental arithmetic'. While the 2nd may help towards the first, it is neither a requirement nor an abstract thinking task on its own.
My maths teachers at school, like probably everyone else's, loved to tell us that we wouldn't be able to carry calculators around with us all the time when we're adults.
The joke's on them. I carry a supercomputer with wireless access to the collective knowledge of humanity in my pocket.
More seriously, if we assume we only have limited time and capacity to learn things, these tools surely free us from learning mundane "tricks" and allow us to further explore more interesting subjects. Sure, an understanding of arithmetic is important, so that we can verify our tools are working. But once that's obtained, let's move on.
Yeah, except you look like a prick taking out your smartphone just to do some basic arithmetic.
It's weird to me that a class of people who like to puff about how intelligent they are are so proud of refusing to function at an incredibly basic human skill.
Showing your intelligence at full usually requires that you are not distracted. That is hard to come by these days.
I can calculate 16x180 in my head, but I would still pull out my smartphone to do it if the result is in any way important. Not because I'm lazy, but I know that the device won't make some silly mistake while doing it.
it's not "smartphones, it's the lack of adaption as evident from the disparity between generations. The speed of information, the signaltheoretic energy is just steadily increasing and small signals get lost in the noise ...
You accept you might make a silly mistake while doing the calculation in your head. How do you know you won't make a silly mistake when you do the calculation using a machine?
If you do both, or at least estimate the result, you can check the results.
I don't think you'd make a silly mistake when using a calculator, but I think other people might.
I think (although I have nothing to support me) that most people cannot use percentages in any meaningful way. If you say "I have a tv that currently costs $300, and I'm going to give you a 10% discount. What will it cost after the discount?" then they can show you the buttons they'd push to get that result. But if you ask them a slightly different version "I have a washing machine that currently costs $800. I've already given you a 10% discount. How much did it cost before the discount?" then I think you'll find a bunch of people who don't know what buttons to push. (Or worse don't know that they don't know and who'll get a close but incorrect answer.)
So, that's not the kind of mental math trick talked about in the article, but calculators are tools and tools are most useful to people who know how to use them and most calculators and calculator apps don't make it easy for people who don't know math.
"Simple high school math" which is sometimes taught in a single hour of a single day and forgotten about by tomorrow because it isn't on the test and we really need to cover the quadratic formula before the mid-term.
Something that I saw on HN not too long ago that really benefited me was something I should have been taught in school. I probably was - but as I mentioned. It was taught in a rush and I had forgotten it, if it was even taught at all.
What is 36% of 25? I'll be honest. I find that's a pretty tricky one to do in my head. I can estimate it to 8 by taking 33% of 24 (close enough, right?). So I'd estimate it to be a bit over 8. Honest guess.
Well the trick I learned on HN is to reverse it. Since % is really multiplication, the commutative property applies. Take 25% of 36 instead and bam! The answer is a flat 9. No estimating needed.
Now the "I'm an idiot" part comes from the fact I always did percentage as multiplication of a decimal. I should have intuitively put 2 and 2 together and figured out the commutative property applies. I hadn't. :)
Given the popularity and support the tip received - I'm going to guess I'm a good example of the average person. The average person was taught percentages in a way that they can convert to decimals but don't think about the math in decimal form. So they miss out on something that is obvious once someone stops and points it out.
So to cut my rambling short: simple math is rarely simple for the average person. The average person, from my experience, is worse at math than they would probably like to admit. (And I'm also an average person.)
It's harder because people fail to make relations or don't think about how they can simplify a problem. Or big numbers are generally harder for mental math. Either or.
Solving 25% of 36 then multiplying by 100 (effectively removing the "%" part of 25%) gets 900. It's also a bit indirect, so many people would overlook it (myself included).
If you were to ask me what 36 * 25 was in most any other context I'd do 40 * 25 = 1,000 - 4*25 = 900.
Although, thanks to your prompt, I'm likely to remember to see if I can cheat with percentages. :) Smaller numbers and fractions are more intuitive for me.
I think he overestimates the capabilities of himself.
He also misidentified the tricky part of the problem as multiplication and addition. Holding intermediate place values is far more likely to cause issues, as we can see from his mistake.
If we allow for simple mistakes, everyone here can do that multiplication in their head without issue. But that was babuskov's exact point. Calculators help with silly mistakes of this sort and they're present nearly everywhere.
I was calculating 18 * 16. For some reason I did not refer back to OP. The approach is similar however.
I agree: holding values is quite difficult in many cases, but the whole discussion is about this example specifically. You only need to remember 3 values in this case, which should be easy for most people.
And no I do not overestimate myself. I usually suffer from imposter syndrome.
12x12 is the max for most memorized multiplication tables (at least in the US). 16x18 is going to require some actual mental work that is prone to errors.
For computer people, 16×18 is easily split into 16×20 - 16×2, which in turn is 320 - 32. If you don't know instinctively that 16×2 is 32 it might be a bit harder though.
(This works for many pairs of numbers that are relatively close together, only requires one 'large' multiplication, and that one is simple, as stated in the article)
But of course, half-way through, one may realize it is
6x7 x 7x7 = 7^4 - 7^3
Now, 7^3 = 343 (easy to remember in combination with 3^5 = 243), but 7^4 = 2401, for me, doesn't pop out (when you say 2401, I know it's 7^4, but not vice versa)
Meanwhile 49 is close to 50, so we have
42x50 - 42 = 2100 - 42 = 2058
That is faster, but somewhat dull.
Meanwhile, as far as we know, the savant calculator just takes the dull road, adding 40x40, 40x(2+9), and 2x9, doesn't get distracted, and produces the right answer in a tenth of the time I take. He has less fun, though, because I take detours to visit tourist attractions.
I kind of agree. Most tricks are just a bit of fun. But some of the time when you need to do some mental arithmetic in the real world you're not actually looking for the right answer. It's more about estimating things. No one really needs to be able to multiply a pair of two digit numbers in their head, but if you're at a hardware store and you need to figure out how much paint to buy, being able to estimate the area of a wall quickly having a trick up your sleeve that gets you most of the way is very handy indeed.
Also, a lot of the time these sorts of things aren't going to be used directly, but are more of an indicator of what to type in to a calculator. Knowing how to do something in your head informs how you do it on a calculator even if you don't actually use the trick yourself. A lot of people who are bad at maths don't even know where to start, so having a device to do the actual sums doesn't help them.
I kind of agree with you too. As with most things, it's not black and white. It's a spectrum. And the usefulness has shifted toward the "less useful" portion of the spectrum whereas in the past, mental math was far more useful and the ROI on being good at it was greater than it is in the present.
I'm not suggesting that you be totally braindead and not invest in learning the basics of mental arithmetic. I'm saying that going deeper than that initial basic investment isn't as useful today and doesn't make as much sense as in the past.
For example, I'd consider the 75^2 example in this blogpost very cool, but not worth for me to deliberately remember and so I'm not going to commit it to memory.
Squares are worth knowing because a^2 - b^2 = (a+b) (a-b). This means any two numbers which are close together can be multiplied by finding the square of the midpoint.
For example, 79*71 = 75^2-4^2 = 5625 - 16 = 5609.
If you know your squares up to 100 and your multiplication tables up to 20, you can solve a great deal of two digit multiplication problems without having to reach for a calculator.
> I feel like it's a bit like writing cursive or being able to have good handwriting in general. It's just not that useful anymore
People teaching hand-writing today concentrate on speed and readability rather than beautiful writing. Some cursive forms are good for speed and readability. Taking notes is still an important skill for students, and computer note taking systems aren't always good enough.
There's not much research, but the little bits that exist suggest that taking notes helps people learn.
Some systems, like Briem, are fast and look neat enough but can end up as hard to read zig-zags. http://briem.net/
Children in China remember the multiplication table from 1 to 10 at grade 3, as part of the curriculum, as well as additions and subtractions with arbitrary number of digits.
Think of a piece of software where the hot paths get their result directly inlined for perf. Basic arithmetics occupy the "hot path" of your math curriculum until at least high school or beyond. This has a huge influence on reducing the amount of information you need to temporarily hold in your brain at once, leaving room for more important calculations such as exploring the solution space creatively, where one extra piece of information can make or break an insight.
Similarly, you can certainly look up a frequently used word in the dictionary every time if you need to. But you might as well memorize the definition once and for all. Now it's a question of where to draw the line. For creative professions such as math/engineering/art, I'd definitely prefer hard-coding some calculations in my brain for the previously mentioned reason.
> ... leaving room for more important calculations such as exploring the solution space creatively ...
Nicely articulated! And I believe the same applies moving ever higher up. Really, theorems in mathematics could be viewed in this manner -- do the proof once or twice for understanding and hard-code the result for use later in some larger context.
People need 0-9 for basic algorithm, 10 is useful for decimals / notation, 11 is easy to learn and 12 is debatable, but potentially handy for base 12 systems which are fairly common. Beyond that we can learn fairly simple algorithms to do this sort of thing.
At least in electrical engineering, we use mental math every day. More specifically, we use approximate mental math (trying to calculate to within about +/- 25% of the correct value) because it's faster than calculating the exact answer when we need a rough estimate of a power, current, voltage, or impedance number. I imagine that fast, approximate mental math is similarly useful in other engineering disciplines.
I was taught the importance of this in my first year of Physics undergrad. Fermi approximations (or order of magnitude estimation), from Fermi problems (https://en.wikipedia.org/wiki/Fermi_problem).
It is a highly valuable skill in STEM fields in my opinion. Sometimes knowing a rough number can tell you what to expect, and can immediately indicate whether something is wrong (or could go wrong).
One of the most important things I learned from my EE prof was that pi is 3. The square root of 10 is also 3. If you need more exact calculations, you should do it algebraically and then plug in numbers to a calculator, but for quick feasibility/sanity checks, approximate mental math is a very useful tool.
I dare say that in the various fields within finance, this skill is the true one-upmanship. A good working memory and enough calculatory skills to quickly glance over numbers and models to spot errors and interesting results pretty much defines your worth.
In jest: two types of Excel-users. Those that use the model and those that don't trust the model.
Don't you ever take notes? A lot of people still write. I mean pens are still sold at pretty much every convenience store in every country I've lived in.
Learning cursive is so easy it's kind of amazing to me that some people, especially Americans, feel there's no ROI. Legibility on the other hand seems very easy for some and very hard for others.
Worth remembering that cursive, as taught in America, is different than "joined writing" as taught in the UK. The American version is a bit harder to read and write, particularly the lower case 's' upper-case 'q' and both cases of 'z'.
Interesting. When I finally went to college after leaving high school, my handwriting started evolving into a joined style. I just figured that I was writing lazily. I suppose it is the path of least resistance as there aren't stops between letters but there isn't anything extra like there is in cursive.
In the old days, American cursive was defined by a periodic national competition. So letters would mutate over time as tastes changed. I remember upper-case Q got really weird (like a number 2) for a while. As a kid I just ignored it and did it my own way, which turns out folks could read anyway.
I remember in grade school when we got the latest winning results, we had to write our capital Qs like a large number two. Because it 'looked prettier'. I refused; I closed the circle so it would look like a real letter Q.
my cursive (in the rare event that i write it these days) is really a hybrid of standard american cursive and print. I avoid the weird capitals in favor of the print versions that I then just join up with the cursive lowercase letters.
I think this is where a lot of people struggle. I can look at some figures and have a rough idea what the result should be, often that is all I need. If I need an exact answer I will work it out properly. Many of the people I work with can't do that - note I'm not in the IT industry any more where I think mental maths was more common.
One example is I regularly get a spreadsheet with product and packaging weighs which we process for levy payments. It could be the weights of the carton, EPS padding, plastic bag sleeves for kettles; all the bits you throw away. My assistant didn't see a problem with a tiny plastic bag weighing 4Kgs, it should have been 4g. That was instantly obvious to me but clearly not to the supplier or my assistant. This is the ability to estimate and get a feel for the figures and although I find it frustrating I accept that many people have a big problem with thinking like that.
Maybe not in the described form, but it is still very useful if you can do ad-hoc fast calculations. It helps when talking about budgets and similar - when someone throws some numbers at you it helps immensely if you can check if they are in the correct ballpark.
Mental math (and arithmetic tricks) are pretty important for scoring high on the GMAT (for MBA admissions). No calculator is allowed, and while you can solve by pen and paper, for a very time constrained test, tricks can be the difference between a good and great score.
It's also somewhat valued in the business / consultant crowd for talking through assumptions and making estimates of problems.
I am one of those people good at mental math - enough that our founders turn to me in meetings - and I think it's useful.
Instead of thinking of it as a skill, think of it as an exercise.
There are hundreds if not thousands of things trying to distract, mollify, enrage, and lull us into a "don't think, just act" attitude... having mental fortitude to counteract or ignore those is important.
In the startup world hugely. When you're running a startup your day-to-day life revolves around pricing models, conversion funnels, budgets, commission schemes, etc.
If you're not able to do mental calculations while in the middle of conversations/presentations you'll get left behind by everyone who can.
I can imagine that. Me and my mom are of the calculating kind so when I visit over holidays it's not uncommon we sling a bunch of numbers back and forth over the dinner table to figure something out, and after we're done my dad and sister ask how we arrived at the third number from the first two.
But in more "normal" social contexts, what tends to happen is one of the people involved sit with a digital calculator and input the things other people ask for. It's a bit slower, but the results are just as good.
Then there's the unknown of how it may or may not improve your various brain functions/brain health, like physical exercise is believed to improve your physical health.
when all you have is a hammer, every problem to solve looks like a nail, the more mental tools you have the more likely it is that you'll see patterns or solutions that you wouldn't see otherwise.
The human brain is not a machine that becomes more "optimized" the "less services are running", the more knowledge the better, even in fields that might seem only barely tangential to where your main interests lie
I find myself calculating a lot in my head for example when discussing surveys, statistics etc, just to make some quick calc where certain numbers come from etc. Of course you could take out a calculator, but that's cumbersome in the middle of discussions for example.
I don't mean to be so negative though. I certainly think it's very fascinating and interesting just from a pure mathematical perspective. However we also have to consider the utilitarian perspective when asking "why" many people aren't good at something like this anymore.