A while ago, I taught CS for a year in a local high school. I can very much relate to the notion of "astonishing facts were presented without astonishment": as a teacher, you don't have the freedom to teach whatever you want (of course), but you're very tightly bound to a curriculum that's developed by the state government. And for CS, this curriculum was so uninteresting and uninspiring (what a surprise: 13 year old kids don't care about the history of computers), that I couldn't blame any of my students not to show much interest in my classes.
As a matter of fact, I gave up after just one year. It wasn't any fun for anyone, not for the students, not for me.
slicktux 3 hours ago [-]
I think the whole teaching the history of computers is a big failure at an attempt to Segway into computer organization and architecture.
Nonetheless, I get what is happening. If it’s a pure Computer programming class then the goal maybe to have them understand the “basics”…like what is the hard drive vs RAM (memory allocation) or what is a transistor (Boolean logic) and what is a punch card (mnemonics and abstractions of those mnemonics to what is now just a computer programming language).
0_gravitas 2 hours ago [-]
Personally, I struggled a lot in my earlier CS/Informatics education, partly because I never felt like I understood what was actually happening/how we got here, everything was just factoids in a void. When I took a gap semester between my A.S. and B.S., I finally studied/explored a bit of the history and it put a lot finally in perspective.
nightpool 1 hours ago [-]
(Unless you're riding a motorized vehicle, the word is segue, not Segway)
SoftTalker 2 hours ago [-]
> have them understand the “basics”…like what is the hard drive vs RAM (memory allocation) or what is a transistor (Boolean logic)
You must understand these things at least conceptually if you want to really understand how to write efficient programs. Maybe not at the level of how memory can electronically "remember" a 1 or a zero, or how a hard drive can magnetically do it, but at least the relative speeds e.g. register vs. cache vs. RAM vs. disk.
1 hours ago [-]
alnwlsn 35 minutes ago [-]
I've loved the history of computers since I was young, although if I was forced to learn about it in school I know it would suck.
hfgjbcgjbvg 4 hours ago [-]
Imagine if they taught the history of English to kids before they could read
moffkalast 3 hours ago [-]
Since most people throughout history couldn't read, I guess it would be relatable?
internet_rand0 3 hours ago [-]
they might just remember it all once they're adults!
imagine that!? an historically informed populace???
you'd need more expensive lies and higher quality fakes... the government would be costlier to run.
ideally, in the long term this would make the national currency's value in the international money market rise up. but why wait for that when one can directly manipulate money through trade fraud and covert military ploys?
RogerL 2 hours ago [-]
That's not the point, the point is the ordering is inverted, not that history shouldn't be learned.
2 hours ago [-]
PicassoCTs 3 hours ago [-]
Those curiculums developed by sould-dead gremiums in consensus on the minimum knowledge you goto have are a blight on western civilization. Instead of giving students the ability to discover a topic, or built something they are interested in themselves and then give them a understanding and fascination with the discoverers who have gone before them. Instead they kill the subject..
I must confess, it gives my dry old heart some joy, to see the anti-education masses coming from this, voting and storming the fortresses that produced the paywall around education, that only money with tutors could or accidental intrinsic motivation could overcome and burn & salt those outposts of classists academia.
mlinhares 3 hours ago [-]
Yes, definitely, destroying education as we know it without any plans for what the next thing is will definitely work.
Developed countries really need a come to Jesus moment, because the disdain for everything that made them great places is unbelievable. People will understand, after great suffering, that destroying stuff is much easier than building it.
immibis 3 hours ago [-]
We're in the destroying phase right now. Unless you live in China - I hear they're mostly doing well. Or middle of nowhere Africa, where there's nothing to destroy because there's nothing there.
But systems can rot from within too, or just decay naturally, and don't need to be destroyed. What if the core ideas that built our current civilization were ideas of the past, that we don't have any more, and we don't know what to do when The Machine Stops? Doesn't have to be a literal machine - it's a good metaphor for how democracy fell apart.
fads_go 2 hours ago [-]
Forgetting that it was the anti-education forces that created the curriculums. The war on public education goes back a long time; teachers lost the freedom to teach decades ago. and it has been the same forces behind it all along.
intrasight 4 hours ago [-]
My fork in the road with hard tech hard science versus biology was in high school. It seemed that students that wanted to become doctors took AP biology and students that wanted to be engineers took physics and chemistry. I had wanted to be an engineer since I was 12 years old so I felt the decision was already made. But all studying neural networks in college in the 80s I realized that there was this tremendously rich domain of real neurons which I knew nothing about. I worked as a software engineer for a couple years after graduating but then went back to school to study Neurophysiology. I did not pursue it as my area of work or research, but I am grateful for having had the opportunity to look at the world from the perspective of a biologist.
If you're an engineer and early in your career and feel there's something missing from your intellectual space, I encourage you to go back and get a graduate degree in something totally different. Humans live a very long time so don't feel like you're wasting time.
keithwhor 2 hours ago [-]
I've been programming since I was eight, but truly fell in love with biology in 12th grade chemistry: the first introduction to organic chemistry and biochemistry. It was the first time I truly started grokking the application of systems-level thinking to the biological world; how do trees "know" to turn red in the autumn? How do fetuses assemble themselves from two cells?
I decided to purse a double major in biochemistry and evolutionary biology and it was one of the best decisions I've made in my life. The perspective you gain from understanding all life in terms of both networks and population dynamics of atoms, molecules, cells, tissue, organisms and populations -- and how every layer reflects the layer both underneath and above it in a fractal pattern -- is mind-expanding in a way I think you just don't and can't get designing software systems alone.
I work as a software engineer / founder now, but always reflect wistfully on my time as a biologist. I hope to get back to it some day in some way, and think what the Arc Institute team is doing is inspirational [0].
I would love to do something like this but simply cannot afford it. I think it is good advice but going back to school for a degree one does not plan on utilizing is not as feasible today as it was in the 80's, largely due to the sizeable increase in tuition without reciprocal increases in wages.
biomcgary 37 minutes ago [-]
I was paid to get a PhD in Biology, albeit just enough to live on. Most people in PhD programs are, either through being a TA (teacher's assistant) or RA (research assistant). The real financial cost is the opportunity cost of 5-6 years of your life.
Whether or not broad support for training scientists holds up during and after the current administration remains to be seen.
toast0 55 minutes ago [-]
Depending on where you live, and what you want to study, you might be able to take a couple courses at the community college in areas of interest without spending a lot of money.
Suppafly 2 hours ago [-]
>I would love to do something like this but simply cannot afford it.
Work for a company that will pay for it.
shortrounddev2 1 hours ago [-]
I can't imagine why a company would pay an engineer to get a masters degree in biology
MattGrommes 37 minutes ago [-]
A lot of companies will pay for at least part of whatever college classes you take, without auditing whether or not it would be good for your specific job.
I encourage people to look into it, it's a benefit a lot of people have but don't use and it's leaving money on the table.
dominicq 8 minutes ago [-]
Can you say more? What kind of company would so such a thing? Maybe I live in a bubble but that's so far outside of what I've seen that it just sounds fantastical.
shortrounddev2 20 minutes ago [-]
Every company I ever worked for constrained it in many ways
1. Masters degree only, they won't pay for anyone to get a bachelor's or associates
2. Must maintain a B average or better
3. Cannot take any time off, it has to be entirely on nights and weekends
4. Reimbursement after the fact, so you're taking on the initial financial risk up front.
SoftTalker 2 hours ago [-]
Same. Biology was an elective in high school and I never took it. I took Earth Science (basically introductory geology) and then went into the Chemistry/Physics track (two years of each). Never felt I missed it, last time I had any real biology education was a unit in 8th grade science and I didn't care for it then.
AnnikaL 2 hours ago [-]
I am not sure biology is not a "hard science"?
Feynuus 1 hours ago [-]
I had always thought of biology as 'less rigorous' than the other sciences, and consequently less deserving of merit than, say, physics (my major). Less mathematical, not as rigorous, purely memorization devoid of deep understanding,.
It took me a while to shed that view.
1. There's an inherent charm and beauty to biology, and the ability to memorise is a skill.
2. The many different sub-disciplines of biology demonstrate the level of complexity that the field demands. And, even if it isn't as 'rigorous' as physics, do we denounce experimentalists because theoretical physicists exist? They simply serve as distinct, but crucial, parts of a chain.
dekhn 3 hours ago [-]
I invested a great deal of effort over 30+ years to learn biology, which I started to love in high school when a teacher introduced us to molecular biology. Over time I've come to appreciate that biology is a huge field and people who master one area often know little to nothing about many others.
To be proficient in biology you need to have "Extra" skills: extra ability to work with ambiguity,ability to memorize enormous amounts of descriptive information, and highly abstract representations. Digital biology often loses many aspects of biological reality, and then fails to make useful predictions.
Over the years, I've come to realize I know less and less about biology- that I greatly underestimated the complexity and subtlety of biological processes, and have come to admit that my own intelligence is too limited to work on some problems that I originally thought would be "easy engineering problems".
A great example of the rabbit hole that is modern biology is summed up here: what is the nature of junk DNA? To what extents are digital readouts like ENCODE representative of true biology, rather than just measuring noise? What is the nature of gene and protein evolution?
https://www.cell.com/current-biology/fulltext/S0960-9822(12)...
(note that while I disagree strongly with Eddy in many ways, I've come to recognize that I simply don't understand the modern view of evolution outside the perspective of molecular biology (IE, what geneticists like Eddy think).
Also, recently, Demis Hassabis postulated that if he is successful, we will come up with silver bullet cures in 10 years time simply using machine learning. It's amazing how many computer scientists (I call him that rather than a biologist, although he has worked into neuro) make this conclusion.
baq 3 hours ago [-]
Why would biology be so hard? It’s only a billion years of evolution, after all. We’re dealing with billions of things all the time. /s
dekhn 3 hours ago [-]
Appreciate the sarcasm, but... it's really 3 billion years of evolution, with astronomical levels of actual entities living and dying in a dynamic world environment. Chemical reactions happening in nanoseconds. Polymers have extraordinarily complex behavior!
frereubu 4 hours ago [-]
The post by James Somers that this article references at the top inspired me to buy the David Goodsell book The Machinery of Life. I would seriously recommend that to anyone who doesn't have a background in biology (like me). The phrase is a bit of a cliché, but it genuinely blew my mind, to the extent that I had to read it slowly because there's so much fascinating stuff packed into such a small book. It's obvious to me now, but the fact that so much of this stuff is about physical shapes locking into each other, and doing it at an almost unimaginable speed, was absolutely enthralling.
smath 3 hours ago [-]
Ha, same here! Bought that book about a year ago after reading that post
1auralynn 3 hours ago [-]
The field of biology was created by people who love to classify/name things. This has resulted in what we have now: A subject where the prerequisite to understanding is the ability to read long passages of text littered with jargon and visualize what that might represent. Even if everyone's reading skills were where they should be, the second part is not a super common skillset.
It's one of the reasons why I work in visualization for life sciences education: I think we're missing out on people who might otherwise make massive contributions to the field because they failed to memorize what the "endoplasmic reticulum" does. Much of biology you don't have to actually remember what things are called in order to understand the processes (at least at a basic level like what a middle schooler might be taught). Once you're exposed to the fascinating complexity of life at that level, for many people it can be interesting enough to build the motivation for the memorization/etc.
mrtesthah 57 minutes ago [-]
>Much of biology you don't have to actually remember what things are called in order to understand the processes
But even that's besides the point of the fact that all these things are nothing more than abstractions created by humans, and ultimately it's all one giant soup of interacting molecules.
duxup 4 hours ago [-]
I took some programming courses in college. I loved computers and was very interested. However, the classes were a guy reading from a book about C. That was pretty much it. You did what the book said and hoped something stuck in your head.
This was early days of the internet, the book(s) were largely the only resource. The instructors were folks who just understood coding in C naturally and had no idea how to communicate with those who did not. No joy in anything, just raw code.
I dropped out.
Decades later after age 40 I was at a career crossroads and took a web development class. I loved it, I could make things quickly, the instructor actually understood how to teach / introduce concepts. I've been happily coding professionally and personally since then.
How things are presented sometimes makes all the difference.
manfromchina1 3 hours ago [-]
I remember my first interaction with computers was on one of those ancient ones way back when. Our teacher showed us how to make a circle appear on the screen. I was preoccupied with how the computer was actually able to render that circle, what exactly was happening under the hood and what kind of physics was happening for all this to come together as a circle on the screen and not that particular function of whatever program they were using at the time. That turned me off to wanting to mess around with computers for awhile.
praptak 3 hours ago [-]
A complex three dimensional organism self-assembling from a single cell is 100% magic, especially given how resilient it is to disruption. You can kill one of the two cells produced by the first division and still get a fully formed organism (that's one of the actual early experiments in morphogenesis theory).
kjkjadksj 3 hours ago [-]
Concentration gradients layered on concentration gradients layered on concentration gradients.
And Brownian motion all but guaranteeing everything bumps into everything else constantly!
philsnow 2 hours ago [-]
My interest in biology isn’t driven at all by stories, history, or “adventure”, but rather by the awe-inspiring complexity and majesty of all the microbiological processes and their interplay.
Yes, it’s pop science, but last be year I read through Philipp Dettmer’s “Immune”, and the description of how the immune system continuously generates random/arbitrary sequences of nucleotides, builds the proteins that those sequences encode, and then subjects the resulting proteins to a “is this a ‘me’ protein or an ‘other’ protein?” gauntlet, the latter path of which allows the body to create antibodies for completely novel proteins... is just incredible.
I have an idle fantasy that, in the afterlife, I’ll be able to ask God questions like “so what are quarks made of?”, “why is the speed of light what it is and not any faster/slower? What would the universe have been like if the speed of light were several orders of magnitude faster/slower?”, “is there a single force that unifies all the ones that humans know about? What would the universe have been like if the weak nuclear force were just a tiny bit weaker?”, etc etc etc etc etc etc etc.
ricardo81 2 hours ago [-]
same inspiration but I wouldn't devolve it to 'pop science', it's simply less axiomatic than physicists and mathematicians would like. The fact there's 4 billion years of ecological change beyond the biological change just makes stuff hard to prove empirically.
esp. when physicists use things like the anthropic principle to describe our own universe.
GuB-42 3 hours ago [-]
My father, who was a teacher considered teaching classes to be a kind of performance art. For getting information, you are better off with a book (or other media). His goal was to put up a performance good enough to get students interested, and ideally, read the books later.
metadaemon 3 hours ago [-]
Makes sense, my perceived best professors were those that were enthusiastic about teaching and/or the subject
sdenton4 3 hours ago [-]
Well, this is incredible:
"The gene sequence had a strange repeating structure, CAGCAGCAG… continuing for 17 repeats on average (ranging between 10 to 35 normally), encoding a huge protein that’s found in neurons and testicular tissue (its exact function is still not well understood). The mutation that causes HD increases the number of repeats to more than forty – a “molecular stutter” – creating a longer huntingtin protein, which is believed to form abnormally sized clumps when enzymes in neural cells cut it. The more repeats there are, the sooner the symptoms occur and the higher the severity"
Not the only sequence model that exhibits stutters on repetitive inputs...
ansk 3 hours ago [-]
And on the seventh day, God ended His work which He had done and began vibe coding the remainder of the human genome.
sdenton4 2 hours ago [-]
this should do the trick...
while creatures:
c = get_random_creature()
if c.is_dead():
creatures.pop(c)
else:
creatures.add(c.mutate())
RogerL 2 hours ago [-]
You also need selection, not just mutation (I know you are being silly, so am I)
ricardo81 2 hours ago [-]
Love biology. I appreciate purist mathematician/logicians prefer chemistry and physics and it seems to be an inside joke in the professions that biology isn't on the same level when it comes to axiomatic things.
I'm a classic INTJ but left school and built biology-online.org 25ish years ago. I think it's had a couple of thousand years of reading hours. I sold it on thinking I lack the expertise the topic deserves (it ranked well on Google for lots of biological terms)
I love the lack of agency about biology/evolution, it found a way to create ourselves as well as the huge tree of life around us purely through biological/ecological pressures. And here we are. We owe a lot to how biology has expressed things over the past 4 billion years and will likely find out a whole lot more.
> Despite its popularity, the MBTI has been widely regarded as pseudoscience by the scientific community.[1][3][2] The validity (statistical validity and test validity) of the MBTI as a psychometric instrument has been the subject of much criticism.
> Many of the studies that endorse MBTI are methodologically weak or unscientific.[13] A 1996 review by Gardner and Martinko concluded: "It is clear that efforts to detect simplistic linkages between type preferences and managerial effectiveness have been disappointing. Indeed, given the mixed quality of research and the inconsistent findings, no definitive conclusion regarding these relationships can be drawn."[13][72]
>The test has been likened to horoscopes, as both rely on the Barnum effect, flattery, and confirmation bias, leading participants to personally identify with descriptions that are somewhat desirable, vague, and widely applicable.[10][73] MBTI is not recommended in counseling.[74]
mandolingual 2 hours ago [-]
Any survey (as opposed to horoscopes which aren't up to user choice) can be used to convey information about a person, even if that information is what they think about themselves. "I took a survey and I'm a Slytherin" conveys plenty, and no one feels the need to point out that that's unscientific.
lotsofpulp 39 minutes ago [-]
I get that, but I wanted to elucidate since many people think Myers Briggs is based on data and is not a fiction.
ricardo81 2 hours ago [-]
I don't mind the pigeon hole classification as it seems to describe me quite well vs the other definitions.
Hey, a lot of fellow biologists here! A few questions:
Is there a 'hacker news' for biology that I'm missing out on?
Where do you get your biology news from?
Where do you think the field/s are going?
Is bio harder than other STEMs?
I'm a neuroscientist/bioengineer by training and profession. I followed the path that a lot of commenters here did too, in that I came back to bio after a harder STEM career (physics). Glad to know I'm not alone in this!
mleroy 2 hours ago [-]
I can really relate to this — in school, biology felt like dry memorization. It never clicked with me, and I wrote it off for years. If I could recommend one subtopic of biology to math and physic people, it would definitely be mycology!
It's like real-life Pokémon GO and field mycology has a "collect 'em all" vibe. You get out into nature, identify and catalog fungi — it scratches the same itch as exploring an open-world game.
Fungi are discrete, classifiable entities with tons of metadata: GPS location, substrate, time of year, morphology, spore prints, photos, microscopic features. Perfect for structured data nerds.
Unlike many branches of biology, you don’t need to go to the Amazon. You can walk into your backyard or a nearby forest and find species newly known for your country and sometimes even new for science.
Microscopes, macro lenses, chemicals, even DNA sequencing. There’s a hacker spirit in mycology.
Projects like iNaturalist, Mushroom Observer, and FungiMap are full of real scientific contributions from everyday people. The barrier to entry is low, the impact can be surprisingly high, and the community is genuinely welcoming. Many leading contributors — even those publishing in cutting-edge scientific journals — are passionate autodidacts rather than formally trained biologists.
High intra-species variance, subtle features — perfect playground for machine learning wich is not nearly "solved" here.
Cordyceps that zombify insects. Giant underground networks that share nutrients between trees. Bioluminescent mushrooms. Many weird stories.
shayway 2 hours ago [-]
I've recently been delving into paleobiology, but what inspired it was very different from what's described in the post. I ingest a lot of pop educational stuff, mostly just for entertainment; but after a few years of just hearing the highlights and fun facts it became frustrating not being able to put all of it into context.
So I pushed myself a little out of my comfort zone and ordered a textbook and enrolled in a course. It made me realize how I've forgotten how to learn without it being entertainment. But, after some acclimation, I also realized that I don't really need an engaging presentation, because I really do just enjoy learning. So in a way my journey has been kinda the opposite of the author's - the 'fluff' around the information made it less appealing, not more. Though I suppose I might not have taken the leap to delve deeper into these topics in the first place if it weren't for the accessible versions.
Either way though, I think the real takeaway isn't that there's a right way to be interested in a topic - whether through stories and history or otherwise - but rather that school isn't the best environment for figuring out if something interests you, and it's worth re-visiting topics you might have written off with a fresh approach.
ricardo81 2 hours ago [-]
>I think the real takeaway isn't that there's a right way to be interested in a topic
I think a different perspective can sometimes illuminate though, it's not just about the person - it's them having an epiphany that motivates them to do something, like learn more.
>pop educational stuff,
I watch a lot of that as lazy entertainment, so much of it is factually incorrect (on YouTube etc). But I know better I guess.
dawnofdusk 3 hours ago [-]
I do quantitative biology now, although my background is in theoretical physics. Biology is fascinating, but ultimately there is a cultural divide between the scientific "language" used in biology and the scientific language of e.g., engineers, physicists (very famously described in "Can a biologist fix a radio?" https://www.cell.com/action/showPdf?pii=S1535-6108%2802%2900...)
I do find the author's point weird. "I thought high school biology was just memorizing facts, but I began to appreciate it when I read some pop science books and went scuba diving." So the only problem for the author was the topic of the classes, not the style. Why shouldn't one have the same problem with high school physics ("it's just about boring ramps and pulleys"), etc.? Personally I find the style to be a more important distinguishing factor, in that biology is much less quantitative than other science disciplines. Instead the author's problem is that biology should be even less quantitative and more literary or poetic...?
Ultimately science journalism/popularization is not the same thing as science. High school science classes (try to) teach the latter not the former.
2 hours ago [-]
Fomite 4 hours ago [-]
I should write a blog post entitled "I should have loved computer science"
If you want to be fascinated with biology just go to nature, or a park and stay there for a while. After a while you ll start to wonder about the birds, the plants the snails, the cats. Biology is descriptive science , nothing wrong with it
ramraj07 3 hours ago [-]
I don't know if just going to nature is sufficient to get fascinated with biology. In my opinion it takes a fundamental reset in how you think about anything you see. Humans while smart have obviously had to learn to "ignore" thinking about how things work. You don't think too hard about how anything works really. I mean at a cursory level sure, but by vastly different interpretations of the word "cursory", you can change your thirst to know how things you see work at more and more fundamental levels.
You don't need to go into nature to get this curiosity except for the possibility that it makes you more meditative. You can look at your arm and think what the hell happens in there at a molecular level to make you move the muscles. Or when someone says nerves conduct electricity what the hell does that mean?
When I think like that I'm just curious why OP and others blame teachers or whoever else for not inducting the curiosity in them. Like it's someone else's job to make you curious? In my opinion you're either born that way or you're not. Some airport store book isn't gonna make you the next whatever scientist you adulate.
thanatos519 3 hours ago [-]
In high school I was all math>physics>chemistry>biology. So I didn't take biology. Much to my peril. I didn't learn that I wasn't just a brain on a stick until I was 25! At some point "The Inner Life of the Cell" blew my mind.
heurist 3 hours ago [-]
I was lucky to have a great AP Biology teacher in high school. I ended up minoring in the field and it has shaped my career. Now my child is a little biologist. It is a fascinating subject and so core to everything we are and everything we do.
polotics 3 hours ago [-]
This article really strikes a chord: going through high-school biology I was shocked by the dessication of life in the way everything was presented, as if death itself had written the curriculum. I focussed on maths and suspected this was the hidden agenda: only present man-made constructs, treat the rest as if it were just wrong maths.
eilccn 2 hours ago [-]
ha i studied bio in undergrad > med illustration mfa then dropped out after a semester > ms in cs
throwaway5752 3 hours ago [-]
I am sure the author is a fine person, but this is an incredibly self-entitled piece. A number of biologists managed to make it through these classes just fine, and are paid much less for pursuing their passion (and making the breakthroughs the author enjoys reading about while on vacation).
A title like "I wish I had enough attention to get through the boring parts of high school biology, I now find pop biology interesting" may have had less impact, though.
Computer scientists and programmers are very intelligent people who often have grossly unrealistic projections of their competency in other fields, and this is a fine example of the phenomenon.
svat 1 hours ago [-]
The post is not about becoming a professional academic/researcher in biology, so it's not clear why your comments (this and the earlier deleted one) focus on competency, calling the author "not cut out for biology", etc.
The post is simply about what you call enough attention to get through the boring parts of high school biology — should biology in school be only for those who have that ability? Even if being a professional biologist requires those attributes, shouldn't the teaching of the science of life—which is full of wonder—have a bit of something for everyone else too? Even people who don't become biologists ought to love biology, surely?
That's what the post (like the earlier one by Somers) is about; it's not about “I could have become a biologist” (as you seem to be implying). You can call it pop biology, but it's missing from school where “astonishing facts were presented without astonishment”. I see nothing self-entitled about this.
It's the same in mathematics, say: even if being a professional mathematician requires (say) thinking long and hard and being willing to struggle with difficult problems, manipulating things in one's head, etc — surely there is value in exposing more students to pop mathematics / beautiful results (enjoying which is very different from actually doing mathematics, sure), so that more people could love mathematics recreationally, whether or not they become professional ones?
I said nothing about competency, those are your words. I am talking about aptitude. There is a lot of rote memorization in biology. The subject is vast and builds upon itself quickly, like mathematics does. However unlike Math or CS it can't be derived as easily from first principles and the rote memorization is critical. One will have a harder time with the field without the boring details than one would have in mathematics getting through real analysis and linear algebra before hitting the interesting parts.
I think the author's later life interest in biology and projects are great. Unlike you, I did read the article as saying that their teachers did not do enough to make the subject interesting to them, and it being a general complaint against the state of pedagogy in the subject. That felt distasteful.
It's great they love reading about biology advances. Those results are there to wonder over because of scientists and researchers, and the high school curriculum was aimed at the kids that took that path. I never read "Brief History of Time" and blamed my high school teacher for statics being boring.
niam 2 hours ago [-]
What does the author claim entitlement to? Or what real-world malign effect are you expecting from this piece that warrants the charge? I went in expecting the type of piece you describe, since I know the type, but I've failed to read it as you do except with a disqualifying squint.
sdenton4 3 hours ago [-]
The author did fine in another field, but might have picked biology instead if they had gotten the switch flipped earlier in life. That some people get through bad classes isn't a proof that those classes are good; you get those few who would survive no matter what, and those whose brain-wiring is conducive to the way the bad classes are structured. This has a tendency to reduce diversity of thought over time, and contributes to academic ossification.
Secondly, fields really do need cross-discipline collaboration. Finding passionate CS people is fantastic because they bring a different skill set. I have often found that when we get diverse experts together, we can have everyone do the "easy part" and get results which would be otherwise unobtainable.
Yes, some people have 'engineers disease' and fail to appreciate the depth of knowledge and skills of folks who have spent their life in another domain... But the author doesn't seem to be one of these. Many of their favorite stories appreciate the combination of insight and hard work in the history of the field.
It does, indeed, suck that people working in biology get paid less than computer engineers. Blame capitalism...
ramraj07 3 hours ago [-]
As a biologist with a tech background (but actual biotechnology majors) - please we have enough tech bros who think they're biology's saviors. They'll just come in fascinated by some technological problem, call it the only blocker to solving aids and cancer and take away a billion dollars in funding over decades and show nothing of actual consequence. Like the entire protein folding field. It's a tool. Not the solution. Even today there was this hyperbolic piece on NBC about how this Harvard scientist working on microscopy image processing is being deported and now we are not going to cure cancer.
I feel bad for them, but I can assure you, as someone who did the research in the exact same field, they're curing nothing and are more likely to make cures slower by sucking away funding from more pertinent projects.
I've been working my way towards a biololgy degree very slowly (can only really fit one-class-at-a-time alongside working full time). I'm maybe 70% to a bachelor's degree in it. Been writing code for ages, but I've saved enough to accept a lower salary if it means I get to work on a real problem for once in my life. So I guess I'm one of those people you're frustrated with.
Do you have any advice for how to not be that kind of problem? For now I'm just focusing on my coursework, but at some point I'll be biologist-enough to help out with research. How do I approach it without being that guy?
JoeDaDude 2 hours ago [-]
I'm just going to recommend the biology books written by Lewis Thomas. The books are collections of essays rather than science or text books. They blew my mind and opened up a deep respect for the field of biology and gave me a deep appreciation of life in all its forms, so many of which I didn't know existed.
Look for:
The Lives of a Cell: Notes of a Biology Watcher
The Medusa and the Snail: More Notes of a Biology Watcher
The Youngest Science
...and a couple of thers.
searine 4 hours ago [-]
I think one of the things I love most about biology is its uncertainty. Things like Math and engineering are all rigid and rules based. Life is wibbily wobbly, lifey-wifey. An enormous soup of changing alleles cast as probabilities over eons all creating endless interactions you can't ever comprehend.
You have to become comfortable with the fact that there is uncertainy and there are parts of it you can't control. So instead you have to be obsessed with introducing order where you can. It is so refreshing to see a beautiful experiment that can wrestle a clear signal from the endless noise.
pixl97 3 hours ago [-]
> Things like Math and engineering are all rigid and rules based
Depends where in math, in things like particle physics things get all wibbly wobbly is my cat dead or alive. In things like engineering quite often what you're dealing with is probability based, but you just stack the deck so far in your favor the probability is 1.
As they say, building a bridge that doesn't fall down is easy. Building a bridge that barely doesn't fall down is much harder.
searine 3 hours ago [-]
Not saying those fields don't have uncertainty, but I've never seen an physicist pray to Newton that gravity works this time when the ball drops.
I have seen molecular biologists (jokingly) shake the voodoo "molecular biology maracas" over the PCR machine to try and replicate their result.
abdullahkhalids 1 hours ago [-]
A lot of experimental and applied physics operates this way. If you are synthesizing material, for example, it takes a lot of time and effort to get high yields of what you want. Before that your processes can be very probabilistic.
In fact, just finished listening to a talk where a experimentalist was talking about how to get the fabrication yields of superconducting qubits from currently low double digit to 99.99+.
searine 57 minutes ago [-]
Man, just let me have this.
Biology is messy at a macro level is all I'm saying. I don't need a hundred people butting in saying "butt aschully phsyix and code is also messy and harder at a quantum level." I know. We know.
asnyder 3 hours ago [-]
Every scientist does that at some point. I've easily crossed my fingers and hoped numerous times that code I'd written would work, especially on the first time. Even more rewarding in the superstition when the project is hard, and you're a bit daffy at the end.
It's a human thing.
Surely Feynman made jested comments before running experiments. I'm sure some digging in his wonderful books and letters will find many examples.
> Genetic algorithms are commonly used to generate high-quality solutions to optimization and search problems via biologically inspired operators such as selection, crossover, and mutation.
Rosalind.info has free CS algorithms applied bioinformatics exercises in Python; in a tree or a list; including genetic combinatorics.
https://rosalind.info/problems/list-view/
FWICS there is not a "GA with code exercise" in the AP Bio or Rosalind curricula.
YouTube has videos of simulated humanoids learning to walk with mujoco and genetic algorithms that demonstrate goal-based genetic programming with Cost / Error / Fitness / Survival functions.
Mutating source code AST is a bit different from mutating to optimize a defined optimization problem with specific parameters; though the task is basically the same: minimize error between input and output, and then XAI.
westurner 3 hours ago [-]
Justifying that genetic algorithms are CS and Biology applied, which satisfies OT's implicit yearning
Rendered at 21:12:31 GMT+0000 (Coordinated Universal Time) with Vercel.
As a matter of fact, I gave up after just one year. It wasn't any fun for anyone, not for the students, not for me.
You must understand these things at least conceptually if you want to really understand how to write efficient programs. Maybe not at the level of how memory can electronically "remember" a 1 or a zero, or how a hard drive can magnetically do it, but at least the relative speeds e.g. register vs. cache vs. RAM vs. disk.
imagine that!? an historically informed populace???
you'd need more expensive lies and higher quality fakes... the government would be costlier to run.
ideally, in the long term this would make the national currency's value in the international money market rise up. but why wait for that when one can directly manipulate money through trade fraud and covert military ploys?
I must confess, it gives my dry old heart some joy, to see the anti-education masses coming from this, voting and storming the fortresses that produced the paywall around education, that only money with tutors could or accidental intrinsic motivation could overcome and burn & salt those outposts of classists academia.
Developed countries really need a come to Jesus moment, because the disdain for everything that made them great places is unbelievable. People will understand, after great suffering, that destroying stuff is much easier than building it.
But systems can rot from within too, or just decay naturally, and don't need to be destroyed. What if the core ideas that built our current civilization were ideas of the past, that we don't have any more, and we don't know what to do when The Machine Stops? Doesn't have to be a literal machine - it's a good metaphor for how democracy fell apart.
If you're an engineer and early in your career and feel there's something missing from your intellectual space, I encourage you to go back and get a graduate degree in something totally different. Humans live a very long time so don't feel like you're wasting time.
I decided to purse a double major in biochemistry and evolutionary biology and it was one of the best decisions I've made in my life. The perspective you gain from understanding all life in terms of both networks and population dynamics of atoms, molecules, cells, tissue, organisms and populations -- and how every layer reflects the layer both underneath and above it in a fractal pattern -- is mind-expanding in a way I think you just don't and can't get designing software systems alone.
I work as a software engineer / founder now, but always reflect wistfully on my time as a biologist. I hope to get back to it some day in some way, and think what the Arc Institute team is doing is inspirational [0].
[0] https://arcinstitute.org/
Whether or not broad support for training scientists holds up during and after the current administration remains to be seen.
Work for a company that will pay for it.
I encourage people to look into it, it's a benefit a lot of people have but don't use and it's leaving money on the table.
1. Masters degree only, they won't pay for anyone to get a bachelor's or associates
2. Must maintain a B average or better
3. Cannot take any time off, it has to be entirely on nights and weekends
4. Reimbursement after the fact, so you're taking on the initial financial risk up front.
It took me a while to shed that view.
1. There's an inherent charm and beauty to biology, and the ability to memorise is a skill.
2. The many different sub-disciplines of biology demonstrate the level of complexity that the field demands. And, even if it isn't as 'rigorous' as physics, do we denounce experimentalists because theoretical physicists exist? They simply serve as distinct, but crucial, parts of a chain.
To be proficient in biology you need to have "Extra" skills: extra ability to work with ambiguity,ability to memorize enormous amounts of descriptive information, and highly abstract representations. Digital biology often loses many aspects of biological reality, and then fails to make useful predictions.
Over the years, I've come to realize I know less and less about biology- that I greatly underestimated the complexity and subtlety of biological processes, and have come to admit that my own intelligence is too limited to work on some problems that I originally thought would be "easy engineering problems".
A great example of the rabbit hole that is modern biology is summed up here: what is the nature of junk DNA? To what extents are digital readouts like ENCODE representative of true biology, rather than just measuring noise? What is the nature of gene and protein evolution?
https://www.cell.com/current-biology/fulltext/S0960-9822(12)... (note that while I disagree strongly with Eddy in many ways, I've come to recognize that I simply don't understand the modern view of evolution outside the perspective of molecular biology (IE, what geneticists like Eddy think).
Also, recently, Demis Hassabis postulated that if he is successful, we will come up with silver bullet cures in 10 years time simply using machine learning. It's amazing how many computer scientists (I call him that rather than a biologist, although he has worked into neuro) make this conclusion.
It's one of the reasons why I work in visualization for life sciences education: I think we're missing out on people who might otherwise make massive contributions to the field because they failed to memorize what the "endoplasmic reticulum" does. Much of biology you don't have to actually remember what things are called in order to understand the processes (at least at a basic level like what a middle schooler might be taught). Once you're exposed to the fascinating complexity of life at that level, for many people it can be interesting enough to build the motivation for the memorization/etc.
But even that's besides the point of the fact that all these things are nothing more than abstractions created by humans, and ultimately it's all one giant soup of interacting molecules.
This was early days of the internet, the book(s) were largely the only resource. The instructors were folks who just understood coding in C naturally and had no idea how to communicate with those who did not. No joy in anything, just raw code.
I dropped out.
Decades later after age 40 I was at a career crossroads and took a web development class. I loved it, I could make things quickly, the instructor actually understood how to teach / introduce concepts. I've been happily coding professionally and personally since then.
How things are presented sometimes makes all the difference.
https://en.wikipedia.org/wiki/Segmentation_gene
Yes, it’s pop science, but last be year I read through Philipp Dettmer’s “Immune”, and the description of how the immune system continuously generates random/arbitrary sequences of nucleotides, builds the proteins that those sequences encode, and then subjects the resulting proteins to a “is this a ‘me’ protein or an ‘other’ protein?” gauntlet, the latter path of which allows the body to create antibodies for completely novel proteins... is just incredible.
I have an idle fantasy that, in the afterlife, I’ll be able to ask God questions like “so what are quarks made of?”, “why is the speed of light what it is and not any faster/slower? What would the universe have been like if the speed of light were several orders of magnitude faster/slower?”, “is there a single force that unifies all the ones that humans know about? What would the universe have been like if the weak nuclear force were just a tiny bit weaker?”, etc etc etc etc etc etc etc.
esp. when physicists use things like the anthropic principle to describe our own universe.
Not the only sequence model that exhibits stutters on repetitive inputs...
I'm a classic INTJ but left school and built biology-online.org 25ish years ago. I think it's had a couple of thousand years of reading hours. I sold it on thinking I lack the expertise the topic deserves (it ranked well on Google for lots of biological terms)
I love the lack of agency about biology/evolution, it found a way to create ourselves as well as the huge tree of life around us purely through biological/ecological pressures. And here we are. We owe a lot to how biology has expressed things over the past 4 billion years and will likely find out a whole lot more.
https://en.wikipedia.org/wiki/Myers%E2%80%93Briggs_Type_Indi...
> Despite its popularity, the MBTI has been widely regarded as pseudoscience by the scientific community.[1][3][2] The validity (statistical validity and test validity) of the MBTI as a psychometric instrument has been the subject of much criticism.
> Many of the studies that endorse MBTI are methodologically weak or unscientific.[13] A 1996 review by Gardner and Martinko concluded: "It is clear that efforts to detect simplistic linkages between type preferences and managerial effectiveness have been disappointing. Indeed, given the mixed quality of research and the inconsistent findings, no definitive conclusion regarding these relationships can be drawn."[13][72]
>The test has been likened to horoscopes, as both rely on the Barnum effect, flattery, and confirmation bias, leading participants to personally identify with descriptions that are somewhat desirable, vague, and widely applicable.[10][73] MBTI is not recommended in counseling.[74]
I should have loved biology (2020) - https://news.ycombinator.com/item?id=40103590 - April 2024 (253 comments)
I should have loved biology - https://news.ycombinator.com/item?id=32035054 - July 2022 (271 comments)
I should have loved biology - https://news.ycombinator.com/item?id=25136422 - Nov 2020 (298 comments)
Hey, a lot of fellow biologists here! A few questions:
Is there a 'hacker news' for biology that I'm missing out on?
Where do you get your biology news from?
Where do you think the field/s are going?
Is bio harder than other STEMs?
I'm a neuroscientist/bioengineer by training and profession. I followed the path that a lot of commenters here did too, in that I came back to bio after a harder STEM career (physics). Glad to know I'm not alone in this!
It's like real-life Pokémon GO and field mycology has a "collect 'em all" vibe. You get out into nature, identify and catalog fungi — it scratches the same itch as exploring an open-world game.
Fungi are discrete, classifiable entities with tons of metadata: GPS location, substrate, time of year, morphology, spore prints, photos, microscopic features. Perfect for structured data nerds.
Unlike many branches of biology, you don’t need to go to the Amazon. You can walk into your backyard or a nearby forest and find species newly known for your country and sometimes even new for science.
Microscopes, macro lenses, chemicals, even DNA sequencing. There’s a hacker spirit in mycology.
Projects like iNaturalist, Mushroom Observer, and FungiMap are full of real scientific contributions from everyday people. The barrier to entry is low, the impact can be surprisingly high, and the community is genuinely welcoming. Many leading contributors — even those publishing in cutting-edge scientific journals — are passionate autodidacts rather than formally trained biologists.
High intra-species variance, subtle features — perfect playground for machine learning wich is not nearly "solved" here.
Cordyceps that zombify insects. Giant underground networks that share nutrients between trees. Bioluminescent mushrooms. Many weird stories.
So I pushed myself a little out of my comfort zone and ordered a textbook and enrolled in a course. It made me realize how I've forgotten how to learn without it being entertainment. But, after some acclimation, I also realized that I don't really need an engaging presentation, because I really do just enjoy learning. So in a way my journey has been kinda the opposite of the author's - the 'fluff' around the information made it less appealing, not more. Though I suppose I might not have taken the leap to delve deeper into these topics in the first place if it weren't for the accessible versions.
Either way though, I think the real takeaway isn't that there's a right way to be interested in a topic - whether through stories and history or otherwise - but rather that school isn't the best environment for figuring out if something interests you, and it's worth re-visiting topics you might have written off with a fresh approach.
I think a different perspective can sometimes illuminate though, it's not just about the person - it's them having an epiphany that motivates them to do something, like learn more.
>pop educational stuff,
I watch a lot of that as lazy entertainment, so much of it is factually incorrect (on YouTube etc). But I know better I guess.
I do find the author's point weird. "I thought high school biology was just memorizing facts, but I began to appreciate it when I read some pop science books and went scuba diving." So the only problem for the author was the topic of the classes, not the style. Why shouldn't one have the same problem with high school physics ("it's just about boring ramps and pulleys"), etc.? Personally I find the style to be a more important distinguishing factor, in that biology is much less quantitative than other science disciplines. Instead the author's problem is that biology should be even less quantitative and more literary or poetic...?
Ultimately science journalism/popularization is not the same thing as science. High school science classes (try to) teach the latter not the former.
Bioinformatics: https://en.wikipedia.org/wiki/Bioinformatics
Health informatics: https://en.wikipedia.org/wiki/Health_informatics
You don't need to go into nature to get this curiosity except for the possibility that it makes you more meditative. You can look at your arm and think what the hell happens in there at a molecular level to make you move the muscles. Or when someone says nerves conduct electricity what the hell does that mean?
I revisit this feynman video of him explaining (or not) magnets every few months and I think it's relevant to this question. https://youtu.be/MO0r930Sn_8?si=CkWYfiGoGCgAANwP
When I think like that I'm just curious why OP and others blame teachers or whoever else for not inducting the curiosity in them. Like it's someone else's job to make you curious? In my opinion you're either born that way or you're not. Some airport store book isn't gonna make you the next whatever scientist you adulate.
A title like "I wish I had enough attention to get through the boring parts of high school biology, I now find pop biology interesting" may have had less impact, though.
Computer scientists and programmers are very intelligent people who often have grossly unrealistic projections of their competency in other fields, and this is a fine example of the phenomenon.
The post is simply about what you call enough attention to get through the boring parts of high school biology — should biology in school be only for those who have that ability? Even if being a professional biologist requires those attributes, shouldn't the teaching of the science of life—which is full of wonder—have a bit of something for everyone else too? Even people who don't become biologists ought to love biology, surely?
That's what the post (like the earlier one by Somers) is about; it's not about “I could have become a biologist” (as you seem to be implying). You can call it pop biology, but it's missing from school where “astonishing facts were presented without astonishment”. I see nothing self-entitled about this.
It's the same in mathematics, say: even if being a professional mathematician requires (say) thinking long and hard and being willing to struggle with difficult problems, manipulating things in one's head, etc — surely there is value in exposing more students to pop mathematics / beautiful results (enjoying which is very different from actually doing mathematics, sure), so that more people could love mathematics recreationally, whether or not they become professional ones?
The other top-level thread that talks about how this happens in CS education too (https://news.ycombinator.com/item?id=43764315) seems to get the point of the post: it's the equivalent of Lockhart's A Mathematician’s Lament (https://worrydream.com/refs/Lockhart_2002_-_A_Mathematician'... ).
I think the author's later life interest in biology and projects are great. Unlike you, I did read the article as saying that their teachers did not do enough to make the subject interesting to them, and it being a general complaint against the state of pedagogy in the subject. That felt distasteful.
It's great they love reading about biology advances. Those results are there to wonder over because of scientists and researchers, and the high school curriculum was aimed at the kids that took that path. I never read "Brief History of Time" and blamed my high school teacher for statics being boring.
Secondly, fields really do need cross-discipline collaboration. Finding passionate CS people is fantastic because they bring a different skill set. I have often found that when we get diverse experts together, we can have everyone do the "easy part" and get results which would be otherwise unobtainable.
Yes, some people have 'engineers disease' and fail to appreciate the depth of knowledge and skills of folks who have spent their life in another domain... But the author doesn't seem to be one of these. Many of their favorite stories appreciate the combination of insight and hard work in the history of the field.
It does, indeed, suck that people working in biology get paid less than computer engineers. Blame capitalism...
I feel bad for them, but I can assure you, as someone who did the research in the exact same field, they're curing nothing and are more likely to make cures slower by sucking away funding from more pertinent projects.
Also relevant xkcd https://xkcd.com/1831/
Do you have any advice for how to not be that kind of problem? For now I'm just focusing on my coursework, but at some point I'll be biologist-enough to help out with research. How do I approach it without being that guy?
Look for:
The Lives of a Cell: Notes of a Biology Watcher
The Medusa and the Snail: More Notes of a Biology Watcher
The Youngest Science
...and a couple of thers.
You have to become comfortable with the fact that there is uncertainy and there are parts of it you can't control. So instead you have to be obsessed with introducing order where you can. It is so refreshing to see a beautiful experiment that can wrestle a clear signal from the endless noise.
Depends where in math, in things like particle physics things get all wibbly wobbly is my cat dead or alive. In things like engineering quite often what you're dealing with is probability based, but you just stack the deck so far in your favor the probability is 1.
As they say, building a bridge that doesn't fall down is easy. Building a bridge that barely doesn't fall down is much harder.
I have seen molecular biologists (jokingly) shake the voodoo "molecular biology maracas" over the PCR machine to try and replicate their result.
In fact, just finished listening to a talk where a experimentalist was talking about how to get the fabrication yields of superconducting qubits from currently low double digit to 99.99+.
Biology is messy at a macro level is all I'm saying. I don't need a hundred people butting in saying "butt aschully phsyix and code is also messy and harder at a quantum level." I know. We know.
It's a human thing.
Surely Feynman made jested comments before running experiments. I'm sure some digging in his wonderful books and letters will find many examples.
> Genetic algorithms are commonly used to generate high-quality solutions to optimization and search problems via biologically inspired operators such as selection, crossover, and mutation.
AP®/College Biology: https://www.khanacademy.org/science/ap-biology
AP®/College Biology > Unit 7: Natural selection: https://www.khanacademy.org/science/ap-biology/natural-selec...
Rosalind.info has free CS algorithms applied bioinformatics exercises in Python; in a tree or a list; including genetic combinatorics. https://rosalind.info/problems/list-view/
FWICS there is not a "GA with code exercise" in the AP Bio or Rosalind curricula.
YouTube has videos of simulated humanoids learning to walk with mujoco and genetic algorithms that demonstrate goal-based genetic programming with Cost / Error / Fitness / Survival functions.
Mutating source code AST is a bit different from mutating to optimize a defined optimization problem with specific parameters; though the task is basically the same: minimize error between input and output, and then XAI.