How can taking a break help us solve problems more effortlessly?

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In summary, the conversation discusses the phenomenon of effortlessly solving problems when the mind is quiet and relaxed, rather than actively thinking about them. This can happen while sleeping or engaging in physical activities, and has been reported by many mathematicians and scientists. The conversation also touches on the idea that obedience and focusing on one idea at a time can lead to better problem-solving abilities.
  • #1
alias25
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Ive noticed something about myself when i try to solve a problem consciously i can't do it i'd be stuck there for hours and then i'd give up and like a nagging song the problem would surface again and my mind would solve the problem effortlessly and everything starts to 'fit' like a jigsaw puzzle...or i get a starting point given to me by my head and i just carry on along the line and end up with the answer...once i was staring on a maths question and i tried it consiously and i knew it was one of those questions that i could get stuck on for hours so i stopped literaly emptied my mind completely and sat there then in bout a min equations popped into my head and i ended up on the right track and done. that was quite a strange feeling, i was like in a different frame of mind. i was thinking if i could somehow control that kind of thinking it would be brilliant (effortless thinking), any tips, ideas as to why this happens? anyone else have similar happenings.
 
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  • #2
Something similar can happen when ur sleeping. It turns out that while ur asleep the brain reorganises information and u end up with a better memory the next day.

Maybe focussing ur attention on something takes resources away from something else. Like a computer that multitasks and performs these tasks slower and slower the more tasks are happening at the same time. Or it could be the way u in which think, in words or images (or something else). Either could be better suited for different situations.

Still odd that a still mind would be more intelligent than a thinking mind.
 
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  • #3
Many people who think deeply as a profession report this phenomena. The great mathematician Poincare had a famous story about his discovery that "Fuchsian functions" were described by non-Euclidean geometry. He had been working hard to understand the functions, thinking about them hours a day in his office in Paris, but with no success. Then he took a hiking and camping vacation in the country and didn't think about them consciously at all. Just as he was stepping on the bus to return to town, the whole solution flashed into his mind.
 
  • #4
Something that I noticed last year while studying for history is that memories seem to become engraved and solid when you wake up. For example, I sometimes studied for 8 hours straight before going to bed. So much information was going through that before going to sleep, I couldn't really remember if something happened here or there, etc. Then when I woke up, everything was in place... Same with the time I memorized some digits of pi (like 110) before going to sleep quickly, and I was stumbling around not knowing exactly the sequence of numbers a few times. However, when I woke up I had it down perfectly... Cool stuff.

It's also cool how if you're trying to remember a certain (usually quite common) word, but can't seem to get it, if you forget about trying to remember it and move on, at a random time BAM you remember it...
 
  • #5
This is the only way I could get through school.

Many times I would have an insatiable desire to inquire deeply into a subject studied in class. I had the feeling that I wasn't being told the whole story, that something was kept from me as a student, that it was being dumbed down, and I found that unsettling and patronizing. I would want to know things that a teacher would say are good questions but currently unimportant to the lesson and perhaps we would start to cover them in later chapters or courses. But I didn't want to wait, and that would cause much anxiety. I would try to explore further on my own, but there is simply not enough time in the day to do deeper explorations in all your courses, and eventually grades suffered.

Instead of thinking so much about the problem, then, I would not think. Quieting the mind of these questions, correct answers were easy to maintain. I went from being a below average student to having the highest grade in a couple of my courses. Instead of thinking, you let yourself become a bit of a robot and obey.

That sounds dehumanizing at first, but obedience is what the scientist and mathematician must do anyway, whether it is nature or theorems. I suppose that some amount of it removes the creative burden of dealing with so many ideas at once. You accept some ideas as "dealt with" and the mind is focused purely on fitting something into the unknown.
 
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  • #6
There seems to be some connection to (light) physical activity too. I mentioned Poincare's hiking. Another mathematician, the immensely creative Englishman Hardy, had for a number of years the habit of working four hours each morning on his researches, and spendign the afternoon playing cricket, in season, with an amatreur team.

Many modern mathematicians and physicists are into camping, mountain climbing and other vigorous outdoor activities.
 
  • #7
Thing is I am not out door type person or sporty at all (tried tennis, a while ago, was useless at it but enjoyed it). I noticed it's when I am relaxed I get these answers, the maths prob i solved by lying down, once i was in the shower, in bed. I guess some people find sports relaxing, hmm. As a kid i always had this feeling that if i wanted to i could achieve anything, not in a big headed way, i don't know where i got this idea from I didn't really have any support or encouragement that i was clever from anyone. so i didnt try, i ended up having low grades, then in year 10 i buckled down and my grades shot up (in science especially), still i was hardly trying, i was just more aware of the importance of grades. In 6th form i had a great teacher i gained a real boost in confidence and when questions were asked in the classroom or anything i noticed, i would just shout it out, again without actually thinking answers would pop into my head. Most people thought all of a sudden i got intelligent, lol, because I am generally a 'shy' quiet person, only because I am exactly a social bumblebee, not good at making conversation and i get embaressed easily.
I have a feeling maybe i used to think in pictures(i think everyone did, since verbal communication is an environmental thing) and maybe that's why I can't remember anything solid before year 10 just random snapshots, I can't remember any sentence/conversation, anything verbal. Is that normal?
 
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  • #8
I think the important thing is to be distracted, so your conscious mind doesn't even slightly think about the problem. And if in addition to conscious distraction you can work in at least one sleep cycle, so much the better.

Relaxed and distracted works. By outdoors I didn't mean competetive sports; if you just can't help being competitive that could impede relaxing. I was thinking more of day hikes or fishing, something quiet.
 
  • #9
selfAdjoint said:
Many people who think deeply as a profession report this phenomena. The great mathematician Poincare had a famous story about his discovery that "Fuchsian functions" were described by non-Euclidean geometry. He had been working hard to understand the functions, thinking about them hours a day in his office in Paris, but with no success. Then he took a hiking and camping vacation in the country and didn't think about them consciously at all. Just as he was stepping on the bus to return to town, the whole solution flashed into his mind.
If I am right, I believe Schrodinger did the same kind of thing.
 
  • #10
This is an interesting phenomenon. I don't know if there is any research looking into it, but would welcome anyone to share it if they do know of something. It certainly does seem pretty common that people report they get their best ideas while in the shower, or when they take a walk, or are doing some mindless chore like folding laundry, etc.

So, since we collectively don't seem to have any answers forthcoming yet, why don't we explore the questions that we'd need to ask if one were to pursue this as a scientific inquiry. I've phrased the questions, essentially, in the form of hypothesis or alternative hypothesis.

First, IS it a phenomenon? This could simply be an observer bias, since the only observer is the person with the experience. The following questions are in no particular order:
- If you had continued to work on the problem another half hour instead of taking a half hour long walk, would you have eventually gotten to the solution either way?
- Have you really stopped thinking about the problem, or have you just changed the environment in which you're thinking about it?
- Does walking away from a problem reliably result in identifying the correct solution, or do you just as often, or more often, come to no solution, or wrong solutions?

These are some initial questions that I think would need to be addressed. It could simply be that we just notice it when we get a good idea at an unexpected time, and forget about all the crazy, wild-goose chase type ideas we also thought about and dismissed. We also may not notice how many of our good ideas come to us when we are directly thinking about a problem, because it's not something as out of the ordinary.

IF it turns out that, yes, people do arrive at better or more creative solutions when doing an activity other than directly focusing on a particular problem, what might be some explanations? This time, instead of asking questions as either/or style, my list is a set of alternative hypotheses, any of which might explain the phenomenon, or several in combination might, or they may all miss the real explanation. Again, in no particular order:
- When focused on a single problem for a long time, do we lock ourselves into a single pattern of thought that we need to distract ourselves from in order to set aside false or misleading assumptions?
- Does changing activities relieve some form of stress that is inhibiting our cognitive abilities?
- Does light exercise stimulate our cognitive abilities when attempting to solve complex problems?

These are just some possible explanations I can think up off the top of my head. This is pretty much the initial inquiry one would need to make (this may have already been done and be available in the literature; I have not looked). First, determine if the phenomenon really exists, or if it is just an observer bias, and second, determine what type of situations or activities or events lead to the experience of this phenomenon (if it exists). Only then could one begin to delve into the questions addressing the mechanism of action. Of course, for practical application, most people would likely just want to know the answers to the second level of questioning, and it wouldn't matter much why it happens, as long as they knew what they needed to do to make it happen.
 
  • #11
thanks moonbear

1"- If you had continued to work on the problem another half hour instead of taking a half hour long walk, would you have eventually gotten to the solution either way?"

i think whether or not getting the solution is dependant on my knowledge and intelligence, but the how fast i can solve it is dependant on this relaxed mood, because i think eventually i could solve a problem if i spend enough time on it given that i have the knowledge to solve it. when my frame of mind is changed i see answers quicker.

2" Have you really stopped thinking about the problem, or have you just changed the environment in which you're thinking about it?"

environment hasn't changed if I am in the same place, like in my bedroom.

3"Does walking away from a problem reliably result in identifying the correct solution, or do you just as often, or more often, come to no solution, or wrong solutions?"

again i think, like 1.

a) "When focused on a single problem for a long time, do we lock ourselves into a single pattern of thought that we need to distract ourselves from in order to set aside false or misleading assumptions?"

I would agree with that, it ends up getting stressful when you seem to be getting no where with a problem, and it does seem everything gets clouded and your missing something, and you start to focus on this missing thing instead of the original problem, and i physically feel a change in my frame of mind when i see the solution.

b) "- Does changing activities relieve some form of stress that is inhibiting our cognitive abilities?"

i think this is possible too. my mind feels refreshed/ less 'heavy' when i solve problems without trying

c) "Does light exercise stimulate our cognitive abilities when attempting to solve complex problems?"

Don't know about this one. I guess this would be a good experiment to conduct under controlled conditions.
 
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  • #12
Moonbear said:
First, IS it a phenomenon? This could simply be an observer bias, since the only observer is the person with the experience.

Argument against this (anecdotal but could inspire a statistical study): every time the subject is brought up by anybody (such as this thread), several others chime in with "That happened to me too". Constrast this with some iffy internal state like a mystical union. Practitioners may say it's available to everybody but the "me too" effect is notably weak.

The following questions are in no particular order:
- If you had continued to work on the problem another half hour instead of taking a half hour long walk, would you have eventually gotten to the solution either way?

This looks to me like a counterfactual, or "conclusion of the witness", and so untestable.

- Have you really stopped thinking about the problem, or have you just changed the environment in which you're thinking about it?

If by this you mean "internal mental environment", this is the 64 million dollar question. If you mean external environment, no way. You really have to get so distracted that the problem doesn't rise to consciousness.

- Does walking away from a problem reliably result in identifying the correct solution, or do you just as often, or more often, come to no solution, or wrong solutions?

I have a recurrent test of this, in that I apply the method to difficult crossword puzzles that I do. And when I'm stuck I follow the walk away strategy, often for days. And I nearly always get some help when I come back (I'm talking about cryptic puzzle definitions like the ones Gokul does on GD). It's often an insight, of a stronger presence than the usual solving experience. I do believe that if a suitable sample population this could be demonstrated with a careful experimental technique.
 
  • #13
I thought this was already very well-known among scientists. It's written about often in popular science literature. James Burke mentions it every now and then, saying that these momentary flashes of insight are what separates the innovators "from the rest of us slobs." But, then, I suppose it's a tribute to the challenge of psychology that there is little solid scientific study about the phenomenon itself.

Anyway, I believe that it is related to the simple idea that nervousness and creativity are inversely related, or that...

Smart People Choke Under Pressure

A new study finds that individuals with high working-memory capacity, which normally allows them to excel, crack under pressure and do worse on simple exams than when allowed to work with no constraints. Those with less capacity score low, too, but they tend not to be affected by pressure.

...

"People with lower working-memory capacities are not using that capacity to begin with, so they’re not affected by pressure."

...

Working memory, also known as short-term memory, holds information that is relevant to performance and ensures task focus. It’s what allows us to remember and retrieve information from an early step of a long task, such as long-division math.

"In these math problems students have to perform subtraction and division, and if you’re trying to hold information in your memory and you start worrying about performance, then you can’t use your entire mental capacity to do the math," Beilock explained.

Most of the people on this site probably have higher than average working-memory. You know that you can work on a task for a long period of time, but when you eventually hit a snag, it irritates you a bit. That irritation takes up short-term memory and could make it even more irritating. So you take a break and do something to shake it off.

However, if you do something that you are well-accustomed to, something that doesn't take much of your working memory, like taking a shower, then your memory will be free again and you will naturally continue the problem, despite your apparent action on something else. What appears like a wonderful insight, when viewed from another angle, could have been the normal conclusion, now long overdue, you would have found had you not snagged. (what makes people snag is another interesting question, huh?)
I have had my memory tested a couple times by academic psychologists and results were mixed. However, most recently, I was tested commercially by the Rockport Institute, which did not take a unilateral view towards working memory. Instead, they divided working memory into three categories.

Number Memory - A list of random 10-digit numbers.

Design Memory - A random "connect the dots" assortment of line segments.

Associative Memory - A list of nonsense words paired with English words.

As you can tell, each is useful for different tasks. Number memory for things like accounting, design memory for art, and associative memory for foreign languages. Note also that number memory does not measure anything about one's ability to perform calculations with numbers, just the ability to keep them in one's mind short term. The Rockport Institute uses these measures among others to test for what careers would suit you.

My results were the following percentile figures:

Number memory - 17
Design memory - 91
Associative memory - 99

I have very high working memory for design and association, but very low for number.

So, to put it all together. According to the article, and assuming these measures are applicable to their view of working memory, in theory, I should noticeably crack under pressure when asked to work with designs and languages, but do just as well under pressure when asked to work with numbers. However, in a low pressure environment, these other levels would rise significantly.

Those of us with low working memory in one area might perform the same as others with those who are otherwise gifted. But we would seemingly not have the same likelihood of having a flash of insight in that area while in a low pressure environment, ceteris paribus.
 
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  • #14
At a neurological level, when we try to learn and understand too many relatively complex theories in an instant during our consciousness, retroactive interference occurs. You see, all this information is stored in our hippocampus, which learns very quickly but has a small storage space, hence "interference" occurs.

During our offline states (e.g. NREM sleep), memory consolidation occurs i.e. the memories and encoded by the hippocampus and stored in the neocortex, which is good at picking out structures. So I suspect that's why when you wake up, you're able to solve the problem which you learned previously better.
 
  • #15
gadgets said:
You see, all this information is stored in our hippocampus, which learns very quickly but has a small storage space, hence "interference" occurs.
It's not a matter of controversy that the hippocampus is crucial to memory, but I think the specific characteristics you're ascribing to it here, and in the rest of your post, are not as definitely mapped and known as you make them out to be. I imagine you've read things that actually are more tentatively stated like "Studied indicate that..." or "Researchers believe the neocortex may..."
 
  • #16
This is a common technique among artists.

I'm rather surprised that everyone is talking about this as if there's so little study done on it.

While I believe that the left-brain / right brain model has been somewhat discredited, the work done on localized task delegation is still valid isn't it? Parts of the mind are better at vocal, talking, analyzing, word-based tasks, while other parts are better at visual, creative, holistic picture-based tasks.

When you're stuck on a problem, it's because your dominant analytical mind is fully active and overrides the more passive, less communicative holistic mind. Unfortunately, the analytical mind also quite linear, and won't choose the path less taken.

By talking a break, or distracting yourself, your analytical mind moves on to something else. This is gives your more passive, creative, but less communicative mind a chance to tackle the problem. It has no problem taking illogical paths, which is often what needs to happen when you're at a logical dead-end.
 
  • #17
I'd thought this was a well established fact for most of my life, as it explains some personal experiences that would be difficult to explain otherwise. Only here, with talk of scientific evidence, did it occur to question this. I've tried and haven't found a lot of reliable material, but I'm not good at looking for this.

Here are some
'There is in fact experimental evidence that both defocused attention (Dewing & Battye 1971; Dykes & McGhie 1976; Mendelsohn 1976), and high sensitivity (Martindale & Armstrong 1974; Martindale 1977), including sensitivity to subliminal impressions (Smith & Van de Meer 1994) are associated with creativity.' http://cogprints.org/2105/00/inklings.htm [Broken]

Martindale (1999) identified a cluster of attributes associated with high creativity. One is defocused attention: the tendency not to focus exclusively on the relevant aspects of a situation, but notice also seemingly irrelevant aspects (Dewing & Battye, 1971; Dykes & McGhie, 1976; Mendelsohn, 1976). A related attribute is high sensitivity (Martindale, 1977, 1999; Martindale & Armstrong, 1974), including sensitivity to subliminal impressions; stimuli that are perceived but of which one has no memory (Smith & Van de Meer, 1994).http://cogprints.org/3417/01/cf.htm

And,
So we did that study, and what we found from the debriefing was indeed that they were thinking at a very free-floating way that's kind of analogous to what is characterised as free association in psychoanalytic thinking. And what we observed during 'rest' was that the parts of the brain that are active during rest are the parts that we call the association cortex. The association cortex has no specific function; it's part of the brain and you know we have about four association cortices in our brains spotted around in different locations. They're the parts of the brain that make connections with other parts of the brain. So my theory is that during the creative process which derives from these kind of unconscious states that we go into when we free-associate or when our brain 'rests' – during that, ideas are floating around, colliding, making connections, sometimes the connections are not very important or trivial but sometimes they're original. And people who have especially well developed association cortices are likely to be more creative. That's the working theory, and I'm just embarking on a study right now of highly creative people using functional imaging and using tasks or conditions where I can study the way their association cortex works. I mean I'm giving them tasks that will stimulate their creativity and then see if indeed that draws on their association cortex. It's actually one of the more fun studies I've done.
http://www.abc.net.au/rn/science/mind/stories/s1580738.htm [Broken]
 
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  • #18
fi said:
Martindale (1999) identified a cluster of attributes associated with high creativity. One is defocused attention: the tendency not to focus exclusively on the relevant aspects of a situation, but notice also seemingly irrelevant aspects (Dewing & Battye, 1971; Dykes & McGhie, 1976; Mendelsohn, 1976). A related attribute is high sensitivity (Martindale, 1977, 1999; Martindale & Armstrong, 1974), including sensitivity to subliminal impressions; stimuli that are perceived but of which one has no memory (Smith & Van de Meer, 1994).http://cogprints.org/3417/01/cf.htm

I firmly believe that this cluster of abilities is under strong genetic control. My wife and her father were both possessors of them to a high degree, and my daughter has inherited them. My daughter also believes that creativity can be taught, which is just evidence that she finds it "natural". Trained as an engineer, she is now paid a lot more as an internal creative consultant to the engineers. I, alas, am prescriptive, meanng that I have geat problems perceiveing anything I don't already have a model for in my head.
 
  • #19
selfAdjoint said:
... I have geat problems perceiveing anything I don't already have a model for in my head.
How do any models get into your head to begin with, then?
 
  • #20
zoobyshoe said:
How do any models get into your head to begin with, then?
With great difficulty, obviously.:tongue2:
 
  • #21
A guy once described four stages of learning everyone goes through when embarking on a new discipline: 1.) unconscious incompetence, 2.) conscious incompetence, 3.) conscious competence 4.)unconscious competence.

In the first stage we suck, but don't realize it, and think we're doing great. In the second we become aware that we suck, and start consciously practising to acquire skill. In the third we have succeeded in acquiring skills and can apply them deliberately. In the fourth the skills have become automatic and we apply them successfully without deliberate effort (we finally become what we thought we were in the first stage).
 
  • #22
selfAdjoint said:
I firmly believe that this cluster of abilities is under strong genetic control. My wife and her father were both possessors of them to a high degree, and my daughter has inherited them. My daughter also believes that creativity can be taught, which is just evidence that she finds it "natural". Trained as an engineer, she is now paid a lot more as an internal creative consultant to the engineers. I, alas, am prescriptive, meanng that I have geat problems perceiveing anything I don't already have a model for in my head.
Likening superposition and music strikes me as very creative thought!
How lucky for your daughter that she can apply her creativity with practical purposes.
 
  • #23
I get that sometimes...but i usually put it down to sods law...whenever i empty my mind to try and not think about the problem at hand it doesn't come to me, because part of me is still consious that I'm trying to subconsiously solve the problem that I'm consious of...but from the way you describe it, you already mastered it...just keep doing what your doing, when it looks hard, shut off and let if flow! then you can be a genious!

just promise me you won't use this gift for evil...yeah?
this world has enough madmen creating more and more ways to cause mass destruction, and reasons for war.
 
  • #24
It has happened to me quite a few times. There was this one time, when I was 12 or so and everytime I went to reading class I would look for last night's homework, which I was 100% sure I completed and put in the folder, and not fiind it anywhere. My grade kept lowering and I was so confused because everytime I would do my homework, it was always lost, for that same class. It got to the point where my grade was so low that the teacher came up to me one day and said, why aren't you doing your homework? I explained to her that I do it and put it in my folder everyday when I'm finished but they seem to disappear. Then it happened, out of nowhere, I wasn't even thinking about it, I just blurted "I think Sandra stole them from me". It turned out to be true, she called Sandra over, opened her folder, and found many of my assignments. She had ereased my name and put her's on all of them but you could tell they were ereased. I was speechless. I really didn't know she was doing it and I thought I was crazy for telling the teacher that before I found out it was true.
 
  • #25
I too, for many years have used the trick of 'forgetting about it' and let my brain work on its own. I don't know how many times I've gotten up at night to try a solution to some programming problem. Most of the times it works and my solution ends up being simpler and more efficient than the mess I had created the previous day while working at it. Where the solution came from, I have no idea, but it came in my sleep.

Funny, just the other day I saw this program about Allan Snyder and his research on savants. Basically, he claims that savants just use a feature of the human brain that we all have, namely 'the raw data of the world' as he puts it. So, by inhibiting some parts of the brain (by numbing it with magnetic pulses), you can trigger savant like abilities in anyone. Heres a link:

http://wireheading.com/brainstim/savant.html

There must be something to it.
 
  • #26
FredericGos said:
I too, for many years have used the trick of 'forgetting about it' and let my brain work on its own. I don't know how many times I've gotten up at night to try a solution to some programming problem. Most of the times it works and my solution ends up being simpler and more efficient than the mess I had created the previous day while working at it. Where the solution came from, I have no idea, but it came in my sleep.

Funny, just the other day I saw this program about Allan Snyder and his research on savants. Basically, he claims that savants just use a feature of the human brain that we all have, namely 'the raw data of the world' as he puts it. So, by inhibiting some parts of the brain (by numbing it with magnetic pulses), you can trigger savant like abilities in anyone. Heres a link:

http://wireheading.com/brainstim/savant.html

There must be something to it.

It's interesting you link it to savant abilities. I think you might have a very good point. I have been assuming this "forgetting about it" works by allowing some unconscious process to sort out the data it already has, undisturbed. Instead, it could be that the answer can always pop out instantaneously when you switch to a "raw data" style perception of things. That link raised some interesting notions vis a vis autistic perception: the same thing that allows us to recognize a location when the position of the shadows is different also shepherds us away from valuing those shadows as data, even in cases where they should be. The "raw data" perception of the autistic person sees it all as equally important, apparently, which can act either as an immense liability or an immense asset, depending on the nature of the task.
 
  • #27
zoobyshoe said:
It's interesting you link it to savant abilities. I think you might have a very good point. I have been assuming this "forgetting about it" works by allowing some unconscious process to sort out the data it already has, undisturbed. Instead, it could be that the answer can always pop out instantaneously when you switch to a "raw data" style perception of things. That link raised some interesting notions vis a vis autistic perception: the same thing that allows us to recognize a location when the position of the shadows is different also shepherds us away from valuing those shadows as data, even in cases where they should be. The "raw data" perception of the autistic person sees it all as equally important, apparently, which can act either as an immense liability or an immense asset, depending on the nature of the task.
Yep. Our brains do a tremendous amount of processing to take the load off our conscious brains. To do so, it takes lot of shortcuts. The way we run our lives, shortcuts are good; they allow us to progress through many, many things in a day, but the downside is that it limits other faculties.

For example, this is part of the secret to learning how to draw. Those of us who claim we can't draw will see a face and draw what we expect to be there - an eye is ... well ... eye-shaped, so that's what we draw. The nose is shaped like a nose. Which is, of course, wrong. The trick to drawing accurately is to short-circuit the brain's preprocessing techniques, and learn to draw the "raw data". There is no eye; no nose. There is only line; curve.
 
  • #28
DaveC426913 said:
Yep. Our brains do a tremendous amount of processing to take the load off our conscious brains. To do so, it takes lot of shortcuts. The way we run our lives, shortcuts are good; they allow us to progress through many, many things in a day, but the downside is that it limits other faculties.

For example, this is part of the secret to learning how to draw. Those of us who claim we can't draw will see a face and draw what we expect to be there - an eye is ... well ... eye-shaped, so that's what we draw. The nose is shaped like a nose. Which is, of course, wrong. The trick to drawing accurately is to short-circuit the brain's preprocessing techniques, and learn to draw the "raw data". There is no eye; no nose. There is only line; curve.
If you're an artist, all art is abstract art. Monet used to advise his pupils to forget they knew what they were looking at was any real object and just paint colors, lines etc. The same process is true for my very exact portraits: I draw lines, and dark patches, not eyes and noses and mouths.

Strangely, though (or perhaps not strangely since I'm not autistic) I automatically shift out of that when I'm not drawing and I don't pay any more attention to shadows and lines as such than anyone else.

It would be nice to be able to shift into "raw data" mode at will for other kinds of problem solving. I don't particularly trust the Transcranial Stimulator, though. When you force neurons into certain kinds of activity they tend to revert to that activity on their own at a later time when you least expect it.
 
  • #29
zoobyshoe said:
... I automatically shift out of that when I'm not drawing and I don't pay any more attention to shadows and lines as such than anyone else...
Depending on how much you buy into Betty Edwards ideas in http://www.drawright.com/", this is because the left brain (which handles most day-to-day coordinating tasks including abstract and symbolic shortcuts) is dominant, while the right brain (which is concrete and takes the world at face value) is submissive, has to be coaxed out, and is easily dismissed again.

Incredible book, BTW. Blows the lid off the "ability to draw" mystery. Enough people follow this book and we artists will no longer bask in the adulation of fans.
 
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  • #30
DaveC426913 said:
Depending on how much you buy into Betty Edwards ideas in http://www.drawright.com/", this is because the left brain (which handles most day-to-day coordinating tasks including abstract and symbolic shortcuts) is dominant, while the right brain (which is concrete and takes the world at face value) is submissive, has to be coaxed out, and is easily dismissed again.

Incredible book, BTW. Blows the lid off the "ability to draw" mystery. Enough people follow this book and we artists will no longer bask in the adulation of fans.

Not to worry: most people are too lazy to read a book these days.
 
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  • #31
fuzzyfelt said:
I'd thought this was a well established fact for most of my life, as it explains some personal experiences that would be difficult to explain otherwise. Only here, with talk of scientific evidence, did it occur to question this. I've tried and haven't found a lot of reliable material, but I'm not good at looking for this.

Here are some
'There is in fact experimental evidence that both defocused attention (Dewing & Battye 1971; Dykes & McGhie 1976; Mendelsohn 1976), and high sensitivity (Martindale & Armstrong 1974; Martindale 1977), including sensitivity to subliminal impressions (Smith & Van de Meer 1994) are associated with creativity.' http://cogprints.org/2105/00/inklings.htm [Broken]

Martindale (1999) identified a cluster of attributes associated with high creativity. One is defocused attention: the tendency not to focus exclusively on the relevant aspects of a situation, but notice also seemingly irrelevant aspects (Dewing & Battye, 1971; Dykes & McGhie, 1976; Mendelsohn, 1976). A related attribute is high sensitivity (Martindale, 1977, 1999; Martindale & Armstrong, 1974), including sensitivity to subliminal impressions; stimuli that are perceived but of which one has no memory (Smith & Van de Meer, 1994).http://cogprints.org/3417/01/cf.htm

And,
So we did that study, and what we found from the debriefing was indeed that they were thinking at a very free-floating way that's kind of analogous to what is characterised as free association in psychoanalytic thinking. And what we observed during 'rest' was that the parts of the brain that are active during rest are the parts that we call the association cortex. The association cortex has no specific function; it's part of the brain and you know we have about four association cortices in our brains spotted around in different locations. They're the parts of the brain that make connections with other parts of the brain. So my theory is that during the creative process which derives from these kind of unconscious states that we go into when we free-associate or when our brain 'rests' – during that, ideas are floating around, colliding, making connections, sometimes the connections are not very important or trivial but sometimes they're original. And people who have especially well developed association cortices are likely to be more creative. That's the working theory, and I'm just embarking on a study right now of highly creative people using functional imaging and using tasks or conditions where I can study the way their association cortex works. I mean I'm giving them tasks that will stimulate their creativity and then see if indeed that draws on their association cortex. It's actually one of the more fun studies I've done.
http://www.abc.net.au/rn/science/mind/stories/s1580738.htm [Broken]
Fuzzyfelt: thanks for posting this. It took me a couple years to get round to reading the links, but they are quite interesting. I recommend them to anyone interested in this thread.
 
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  • #32
i don't think there's anything "savant" about this. i think it's pretty common and just the way brains work.
 
  • #33
Proton Soup said:
i don't think there's anything "savant" about this. i think it's pretty common and just the way brains work.
That's the point made here about savant brains:

http://wireheading.com/brainstim/savant.html

There's nothing "savant" about them. They're normal brains with some functions subtracted.
 
  • #34
Proton Soup said:
i don't think there's anything "savant" about this. i think it's pretty common and just the way brains work.

yes, I didnt mean that some of us are savants because we experience these things. My point was that we all do because the brain works in this 'layered' way. So savants are just normal people lacking some functionality in their brains.
 
  • #35
PIT2 said:
Something similar can happen when ur sleeping. It turns out that while ur asleep the brain reorganises information and u end up with a better memory the next day.


May I ask, where did you get this information? Is it from a book?
 
<h2>What is the importance of taking a break in problem-solving?</h2><p>Taking a break allows our brains to rest and recharge, making us more alert and focused when we return to the problem. It also gives us time to gain a new perspective and approach the problem with a fresh mindset.</p><h2>How does taking a break improve our problem-solving abilities?</h2><p>When we take a break, our brains have the opportunity to process information and make connections subconsciously. This can lead to new insights and solutions that we may not have thought of while actively working on the problem.</p><h2>How long should a break be in order to be effective?</h2><p>The length of a break can vary depending on the individual and the complexity of the problem. However, research suggests that taking short breaks every 90 minutes can help improve productivity and problem-solving abilities.</p><h2>What activities should we do during a break to enhance problem-solving?</h2><p>Engaging in activities that are relaxing and enjoyable can help our brains recharge and improve our problem-solving abilities. This can include taking a walk, listening to music, or practicing mindfulness exercises.</p><h2>Can taking a break actually save time in problem-solving?</h2><p>Yes, taking a break can save time in problem-solving. It allows us to approach the problem with a clear and focused mind, making it easier to find solutions and potentially avoiding mistakes that may have been made due to mental fatigue.</p>

What is the importance of taking a break in problem-solving?

Taking a break allows our brains to rest and recharge, making us more alert and focused when we return to the problem. It also gives us time to gain a new perspective and approach the problem with a fresh mindset.

How does taking a break improve our problem-solving abilities?

When we take a break, our brains have the opportunity to process information and make connections subconsciously. This can lead to new insights and solutions that we may not have thought of while actively working on the problem.

How long should a break be in order to be effective?

The length of a break can vary depending on the individual and the complexity of the problem. However, research suggests that taking short breaks every 90 minutes can help improve productivity and problem-solving abilities.

What activities should we do during a break to enhance problem-solving?

Engaging in activities that are relaxing and enjoyable can help our brains recharge and improve our problem-solving abilities. This can include taking a walk, listening to music, or practicing mindfulness exercises.

Can taking a break actually save time in problem-solving?

Yes, taking a break can save time in problem-solving. It allows us to approach the problem with a clear and focused mind, making it easier to find solutions and potentially avoiding mistakes that may have been made due to mental fatigue.

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