Science's 125 Big Questions

Shadow Wrought writes "To celebrate their 125th anniversary Science is running a series of articles on the 125 Questions of Science. The top 25 each link to an article exploring the subject of the question in depth. Included are such questions as: Are we alone in the Universe? What are the limits of conventional computing? How did cooperative behavior evolve?"

questions

[drewfuss]

Are we alone in the Universe? What are the limits of conventional computing? Why I can't I get a date?

Re:questions

[mOoZik]

No. Wait and see. Take a a shower. :)

Re:questions

[cmburns69]

Are we alone in the Universe?

Maybe.

What are the limits of conventional computing?

Undetermined.

Why I can't I get a date?

Because you got the first post on /.

Re:questions

[Hal_Porter]

Dude, you should own all the boxes on the internet, script 'em them together into one kick ass rig, solve Seti and date some hot green chick.

Hell, if there are no alien chicks, date the rig.

Re:questions

[spacecowboy420]

To "solve" a question, wouldn't it need to be asked first?

125 Questions? What?

[Knight+Thrasher]

We already know the answer to the ONE question... What we REALLY need to do is build a machine to figure out what that question is - who's with me?!

Dark Matter (#1) vs Unified Physics (#5)

Really? I'd think swapping them round might be a good idea. I won't comment on the ordering of biology vs physics though, as it's hard to fairly rank the two.

How did cooperative behavior evolve?"

[team99parody]

That seems to be an easy one.

A preditor/parasite found that it's easier to keep eating if it doesn't kill off it's host completely. Small steps from there could make it benign to it's host; and further small steps can make it cooperative.

Re:How did cooperative behavior evolve?"

[Shimmer]

It might seem to be an easy one, but your answer doesn't explain most cooperation.

Cooperative behavior arises out of an evolutionary phenonemon known as kin selection. The basic idea is that if you are related to another organism, you know that you are likely to share some portion of your genes. Thus, it's in your interest to assist your relative in surving to reproduce so that your shared genes are passed down.

-- Brian Berns

You know...

[cpugeniusmv]

42 * 2.9761904761904761904761904761905 == 125 Coincidence? I think not!

Re:Why?

[tktk]

I think this was answered in Sci. American a few years ago. It turned out to be the relationship between the average table height and the rotational speed of toast. Or it might have been the average height of a person and rotational speed of toast.

Given this average height, toast doesn't have time rotate more than half a turn before hitting the ground. If tables and people were something like 10 feet tall, then people would be wondering why toast allways falls with the butter side up.

Well, the 10 feet figure is made up but that's the basic idea from the article.

Good questions

[exp(pi*sqrt(163))]

My favourite is why does time have an arrow? This is closely related to one of the listed questions "why is time different from the other dimensions?"

Or to put it another way: Why does the entropy of any closed system always increase? Why do we take the 'causal' solution to Maxwell's equations when determining the field generated by an accelerating charge? Why does the evolution of a quantum system appear to involve an irreversible step - wavefunction collapse? These may in fact be the same question in different guises. I think it's the number one question in physics. Every fundamental law of physics has time reversal symmetry (or at least CPT symmetry) and 'future' and 'past' look as similar as 'left' and 'right' at a fundamental level. So the arrow of time we see so blatantly around us is in serious need of explanation. It's almost as if physicists live in denial about the fact that their fundamental theories clearly just don't seem to match up with reality. But there are some good books on the subject such as Zeh's.

Re:Good questions

[jd]

The arrow of time is a curious one. For photons, time must actually be frozen, as relativistic time at the speed of light is zero - even so, photons clearly experience events, otherwise there would be no photoelectic effect and the world would suddenly seem a lot darker - mostly because eyes wouldn't work.

Now, this is only in relation to someone INSIDE the Universe. Someone from an external frame of reference (if such a concept exists) would see the entire of space/time as a single four-dimensional entity. There would be no "time", because time is a product of being on the inside of the system.

This seems to answer the question. Your position along the time axis of space/time is your position relative to event zero, along the time axis. The Universe only expands, so the time arrow can only face outwards.

Problem. Steven Hawking demonstrated that if the Universe were to contract, entropy would STILL increase on any kind of scale. In other words, there would still be some measure (which we can call time if we like) which can ONLY increase, never decrease.

This complicates the picture, because if time can only increase (even when the Universe is contracting), then time is NOT a simple linear measure. Ok, then what is it? Well, simple logic suggests an answer, but simple logic can be wrong. The suggested answer involves taking the absolute value, which must always be positive.

However, you can't just throw away the sign of a number and leave it at that, there has to be some reason why you would do this. Let us say that real time is, in fact, TWO dimemsional, and that the time we experience is along a vector in that space. Well, the length of a 2D vector can be calculated quite easily. Treat the end-point as a complex number and take the absolute value.

Now, treating time as a two dimensional entity raises its own problems. Why two? Why not three? Or four? In fact, this leads me back to another post I did a while back, relating space and time as vectors, when discussing relativity.

Let us treat space/time as a single four dimensional entity. A plain, ordinary four dimensional entity. Nothing special about any of the dimensions, nothing unique, nothing out of the ordinary - other than being four dimensional.

Now, if subjective time is plotted as the vector we are travelling along in this 4D space/time system, then subjective time is (again) the absolute value of that vector and must always be positive as a result, regardless of the behaviour of "physical" time.

Ok, does it make sense to regard subjective time as the vector we are travelling in? That one, I can't answer, but a very superficial glance would indicate that it would seem logical enough. The vector indicates a speed of some sort, so why not the speed of subjective time?

Why so much bio?

[jcorno]

More than half of the top 25 were biology questions. You'd think physics would be a little more strongly represented. But I'm all for answering the evolution questions if it'll stop my in-laws from giving me creationist literature.

Re: Why so much bio?

[Black+Parrot]

> More than half of the top 25 were biology questions. You'd think physics would be a little more strongly represented.

If you're interested in the physics questions you can cut out the journalistic middle-men and read John Baez's Open Questions in Physics. I found it informative, entertaining, and for the most part comprehensible to a moderately well informed non-physicist.

Wikipedia has a List of unsolved problems broken down by field, but the field lists I read didn't strike me as particularly well done. YMMV.

> But I'm all for answering the evolution questions if it'll stop my in-laws from giving me creationist literature.

Facts, answers, and explanations aren't going to make creationists blink an eye.

Re:Why so much bio?

[tootlemonde]

all of the interesting physics problems can be concatanated into a small number of questions.

Given the mathematical basis of physics since Newton, physicists are able to show that disparate phenomenon have a common mathematical formulation. This reductionism results in fewer and fewer unrelated questions.

If biology had achieved the same level of quantification, there might be a smaller number of questions.

For instance, if there were an answer to "What is the origin of homochirality in nature?", then it might be apparent that the following questions were related:

• Can we predict how proteins will fold?
• What keeps intracellular traffic running smoothly?
• What enables cellular components to copy themselves independent of DNA?
• How is asymmetry determined in the embryo?

Biology, unlike much of physics, has immediate practical applications in, for instance, medicine. Therefore, much of the research in biology is aimed at solving a specific problem rather than solving a fundamental problem.

For instance, some questions are related to curing cancer, e.g., "Are stem cells at the heart of all cancers?", "Is cancer susceptible to immune control?" and "Can cancers be controlled rather than cured?" Because lives are at stake, most researchers are not willing to put off tackling these questions until a more fundamental understanding of life is achieved.

The result is that the research effort is dilluted rather than concentrated on a search for underlying principles.

These gaps in the understanding of biology leave it a fertile area for pseudoscience like creationism and New Age medicine. Non-material explanations have been driven out of physical phenomena in chemistry, physics and astronomy in large part because the mathematical models are so complete.

Darwin was, in a way, too good a writer. Anyone can read him with reasonable comprehension and bid to criticize him. Had Darwin been a mathematician, medical research might be a branch of mathematics and evolution would have the same level of certainty as the helio-centric solar system.

Why humans have so few genes

[G4from128k]

The article on why humans have so few genes does some nice hand-waving but fails to answer the core question. Sure, the genome can do some interesting combinatoric stuff to get more out of a given length of DNA, but that does not answer the question -- why should humans have fewer genes than something so simple as a mustard plant or rice?

I suspect the answer is related to human (mammalian) mobility and thermoregulation. If a rice plant gets stuck in a hot place, all it can do is use a different part of its genome to make proteins suited for hotter weather. In contrast, people can move out of the sun while their body basically maintains a constant temperature. Similarly if the plant faces too much cold, too much water, too little water, to much sun, too little sun, too much salt, etc. it can do nothing but sit there and hopefully pull something out of its genome that can cope.

The point is that plants must adapt to whatever their environment gives them much more so than humans. Human mobility and the ability to modify its environment means it is less reliant on gene-based adaptability.

Re:Why humans have so few genes

[rdwald]

I would guess that we have so few protein-encoding genes because we have a large amount of non-protein-based regulatory machinery. In particular, the study of RNA-based regulation in mammals has exploded in the past few years, and it looks like a huge amount of regulation takes place without proteins. I would bet that many of the things which are done crudely in plants with proteins are done in extremely complicated fashions with RNA-based regulation in mammals. That isn't to say that proteins aren't involved; rather, I expect that we can get much more use out of a single protein when that protein's behaivor is affected by RNA in the cell.

There is only one real question

[VividU]

What is the nature and origin of the Universe?

Now that is the real question. And I'm not talking Big Bang or Grand Unified Theory or whatever. I'm talking "Big Picture" here.

What existed before our universe? What is the original nature of existence...of what we call "reality"?

Re:There is only one real question

[rossifer]

What is the nature and origin of the Universe?

It is and has been. (seriously, that's all the answer there is).

What existed before our universe?

Unknowable. "Before" the universe began is "before" the concept of time has any meaning. Alternatively, if we could observe things that were "outside of the universe", we would have to expand the scope of the universe to include those observations, meaning that they were no longer "outside of the universe".

What is the original nature of existence...of what we call "reality"?

This is a vague question. One possible interpretation is that you're asking about the "super-universe" in a different way from the "before the universe" question. It has the same problems as the "before the universe" question (if we could know, we'd have to redefine the universe).

The other interpretation is that you're asking if the nature of reality has changed through the lifecycle of the observable universe, presumably though alterations of fundamental laws from some initial "ideal" state. This question, while clearly less "grand", is more relevant, because it offers a source of falsifiable assertions and possible experiments.

Being able to classify questions as "irrelevant" and "not answerable" for various reasons is a part of "knowing what you don't know" and the rather tricky subset, "knowing what you can't know". Wisdom (and a lot of saved time) lies in a deeper understanding of how to determine the value of questions.

I must admit that about 12 years ago, I got comfortable with saying "I don't know" along with the realization that people are capable of asking bad questions as if they were the most important questions around. My favorite is "Why are we here?" It's worthless because it begs about four other questions that have no objective answer.

The interesting form of the question is, "Why am I here?" and it can only be conclusively answered by exactly one person: the same person who asked the question. What's really tragic is how many people are afraid of answering it themselves and accept someone else's answer out of fear of "getting it wrong". *sigh*

Regards,
Ross

Re:Why?

That for throwing it from a building. For it falling off the table, it has enough time for rotating 180 degrees. That simple.

Here's something else interesting:

Tumbling toast, Murphy's Law and the Fundamental Constants
European Journal of Physics 16 172-176 1995

There's a widespread suspicion among the public that toast sliding off a plate or table has a natural tendency to land butter side down, thus providing prima facie evidence for Murphy's Law: "If something can go wrong, it will". Most scientists, in contrast, dismiss such belief as ludicrous. Indeed, an investigation by the BBC-TV science programme Q.E.D. in 1993 claimed to have proved definitively that the whole notion was nothing but an urban myth. However, as I show in the paper, the experiments carried out by the programme were dynamically inappropriate (in that they consisted of people simply tossing buttered bread into the air - hardly common practice around the breakfast table). When the problem of toast sliding off a plate or table is examined more carefully - with the toast modelled as a thin, rigid, rough lamina - it turns out that the public perception is quite correct. Toast does indeed have a natural tendency to land butter side down, essentially because the gravitation torque induced as the toast topples over the edge of the plate/table is insufficient to bring the toast butter-side up again by the time it hits the floor. Note that this has nothing to do with some aerodynamic effect caused by one side being buttered - it is just gravity, plus a bit of friction.However, I go on to show that the tumbling toast phenomenon has far deeper roots than one might expect. If tables were a lot higher - around 3 metres high - the problem of toast landing butter-side down would go away, as the toast would have enough time to complete a full rotation. So why are tables the height they are ? Simple: to be convenient for humans. So why are humans the height they are ? Using a simple chemical bonding model of the human frame, I show that there is a limit to the safe height for bipedal, essentially cylindrical creatures like humans. The limit is around 3 metres - above that height, a simple fall results in gravity accelerating the skull to such a high kinetic energy that the chemical bonds in the skull are ruptured, causing severe fracturing. This limit, in turn, sets a maximum height on tables suitable for creatures with human articulation of about 1.5 metres - which is still not high enough to prevent toast landing butter-side down. It thus seems that human-like organisms are doomed to experience this manifestation of Murphy's Law.

But then comes the real cosmic twist in the tale. The formula giving the maximum height of humans turns out to contain three so-called "fundamental constants of the universe". The first - the electromagnetic fine-structure constant - determines the strength of the chemical bonds in the skull, while the second - the gravitational fine-structure constant - determines the strength of gravity. Finally, the so-called Bohr radius dictates the size of atoms making up the body. The precise values of these three fundamental constants were built into the very design of the universe just moments after the Big Bang. In other words, toast falling off the breakfast table lands butter-side down because the universe is made that way.

Having made this depressing discovery about the nature of our universe, I felt duty-bound to come up with some ways around it. After all, we should not be fatalistic about such things. There are any number of daft ways (eating from 3 metre high tables, eating tiny squares of toast, putting the butter on the underside, tying the toast to a cat, which of course knows how to get right-side up during a fall, etc. etc). The physicist's approach is to minimise the amount of time the toast is exposed to the turning effect of gravity. This means doing the opposite of what you might expect. If your toast is sliding off the table, you should give it a swipe with your hand, to increase its ho

Add Saturn to the queue

[yohohogreengiant]

Saturn is rotating slower: And Saturn is rotating seven minutes more slowly than when probes measured its spin in the 70s and 80s - an observation experts cannot yet explain.

Re:Why?

[Nasarius]

I'm sorry, for a second there, I thought your post included the phrase "the rotational speed of toast". My Bad.

Clearly, it should have been "the rotational velocity of toast".

Superultimate question

[Shimmer]

Martin Gardner says that the superultimate question is: Why does the universe exist?

Or, put another way: Why is there something rather than nothing?

Perhaps this is more of a philosophical or metaphysical question, but I think it fits in well with the great scientific questions.

If you think about it, you'll realize that things would be alot simpler if nothing existed at all. Why does the universe go to all the bother of existing? It's a pretty overwhelming thought -- a good reminder that we still don't know much about the fundamental rules of nature. As Gardner said, "the night is large".

Re:Superultimate question

[jmichaelg]

The fact that Gardiner can even ask that question is remarkable.

400 years ago he would have been burned at the stake for posing the question since it was patently obvious that everything exists to demonstrate the glory of God. Anyone who would question that was a heretic. Today, he just has to watch out for F&Fs. (Fatwas and Falwells)

Re:Why?

[Boronx]

Tidal locking. The increased gravitational field towards the bottom of the toast will act to brake the rotation of the higher mass of the jam as it reaches the lowpoint and starts to rotate upwards.

As an aside, this theory predicts that, dry, unadorned toast will tend to land on it's edge.

Re:Why?

[wass]

This was alluded to by the Oracle some time ago. Surprisingly, it also answers other important questions about anti-gravity and alien lifeforms.

From the Internet Oracle Best of Digests :

The Usenet Oracle has pondered your question deeply. Your question was:

Oh omnipotent oracle! If there were a single molecule from a forgotten oraclelean 10,000-year-old fart I would not be worthy to inhale it! Timorously, I ask you:

If you drop a buttered piece of bread, it will fall on the floor butter-side down. If a cat is dropped from a window or other high and towering place, it will land on it's feet.

But what if you attach a buttered piece of bread, butter-side up to a cat's back and toss them both out the window? Will the cat land on it's feet? Or will the butter splat on the ground?

-Mike

And in response, thus spake the Oracle:

Even if you are too lazy to do the experiment yourself you should be able to deduce the obvious result. The laws of butterology demand that the butter must hit the ground, and the equally strict laws of feline aerodynamics demand that the cat can not smash it's furry back. If the combined construct were to land, nature would have no way to resolve this paradox. Therefore it simply does not fall.

That's right you clever mortal (well, as clever as a mortal can get), you have discovered the secret of antigravity! A buttered cat will, when released, quickly move to a height where the forces of cat-twisting and butter repulsion are in equilibrium. This equilibrium point can be modified by scraping off some of the butter, providing lift, or removing some of the cat's limbs, allowing descent.

Most of the civilized species of the Universe already use this principle to drive their ships while within a planetary system. The loud humming heard by most sighters of UFOs is, in fact, the purring of several hundred tabbies.

The one obvious danger is, of course, if the cats manage to eat the bread off their backs they will instantly plummet. Of course the cats will land on their feet, but this usually doesn't do them much good, since right after they make their graceful landing several tons of red-hot starship and pissed off aliens crash on top of them.

You owe the Oracle two slices of toast and a bag of kitty litter.

Oh, come on.

[MrHanky]

Dark matter and the biological basis of consciousness are well below the big question: What is knowledge? What is consciousness, and what is truth? This should be answered before the question of what the biological basis of consciousness can be known. We don't even know what consciousness is, so why do we look for its biological basis first?

(The answer to the last question is: We didn't. But we haven't found any good answer yet, unless we believe in Plato et al. But science is, metaphorically speaking, a house of cards built in the air. And I'm saying that with no disrespect to science. (And yes, I'm a bit drunk, but I'm still serious.))

Re:You ask for much

[king-manic]

The big picture is about existance itself. Why does "existance" exist? It's a depressing question because I don't think it'll ever be answered, and I can't keep thinking about it.

Does there need to be a why? As history has shown us, hows are all there is, why are often superflous questiosn we ask because we're bored.

Re:Why?

[WinterSolstice]

Actually, it is far more fun to spray a cat's feet with non-stick "buttery" spray, and send the cat off across the linoleum floor... Especially if there is a dog nearby :)

-WS

126, 127, 128, and ...

[Ranger]

They haven't even scratched the surface. How about:

• Why do dogs have wet noses?
• If oranges are called oranges because of their color, why isn't a banana a "yellow?"
• Can God make a rock so heavy he can't lift it?
• Did Adam have a belly button?
• Gallagher: Do single people have dirty backs?
• Gallagher, again: What kind of wood were George Washington's false teeth made of?
• From South Park's Sexual Harrasment Panda episode - Skeeter: No! I wanna know something from Mr. Panda Bear here! If you pandas are from mountainous areas of China and Tibet, how come you eat bamboo which is prone to grow only in dryer more arid regions?

Glass does NOT flow at normal temperatures

[antispam_ben]

(In fact, glass is a fluid much like water - only a LOT more viscous.)

I've often heard this, and the windows of several-hundred-year-old buildings are often cited as an example of this (a high school physics teacher told this story to the class), with the bottom part of the glass pane being thicker than the top, but I recall hearing an alternative explanation of this. Also, many precisely made pieces of glass, such as binocular lenses and telescope lenses and mirrors, do NOT flow measurably over decades or centuries at normal temperatures.

Googling glass flow bring several relevant links such as this one:
http://en.wikipedia.org/wiki/Glass#The_myth_of_gla ss_being_liquid_at_room_temperature

Okay, perhaps glass does flow, but if so the rate of flow is many orders of magnitude slower than would be indicated by the thicknesses of the old glass windows.