I agree. The last paragraph is important:selfAdjoint said:A really terrific sciam http://www.sciam.com/print_version.cfm?articleID=00010347-101C-14C1-8F9E83414B7F4945" on the study of expert knowledge, talent and their interaction to enable "magical" performance. Worth a lot of thought!
The preponderance of psychological evidence indicates that experts are made, not born. What is more, the demonstrated ability to turn a child quickly into an expert--in chess, music and a host of other subjects--sets a clear challenge before the schools. Can educators find ways to encourage students to engage in the kind of effortful study that will improve their reading and math skills? Roland G. Fryer, Jr., an economist at Harvard University, has experimented with offering monetary rewards to motivate students in underperforming schools in New York City and Dallas. In one ongoing program in New York, for example, teachers test the students every three weeks and award small amounts--on the order of $10 or $20--to those who score well. The early results have been promising. Instead of perpetually pondering the question, "Why can't Johnny read?" perhaps educators should ask, "Why should there be anything in the world he can't learn to do?"
Evo said:Either you are a born artist or not, sorry, but someone with no talent cannot learn to have talent. If you already have artistic talent, you can pick up new techniques and decide if you want to incorporate anything.
If you do not have a natural born talent, the best you can hope for is mechanical drawing.
zoobyshoe said:I don't really agree with this. I think anyone who loves art and pursues it doggedly enough can find something they can do that is remarkable and unique to them. I really believe art is an Edison 99% perspiration proposition. Most people give up when it turns out not to be easy.
You're asking if there are genetic and environmental factors that predispose some people to "effortful study". I'm sure there is some genetic factor but the article obviously leans toward the environmental factors as the important ones as it mentions parents who deliberately and systematically train their children in various kinds of "effortful study". It is urging people to take advantage of the fact that the environmental factors, which are controllable, are the really important ones.selfAdjoint said:zooby, while I fully agree that "Experts are made not born", I do wonder if there are not (a) genetic, and (b) random early life environmental factors which affect an individuals propensity to be enough involved in a particular field like chess to go through what the making of a master involves. People are always asking me why I am not a chess master, and my answer is that chess does not intersest me and I have never in my life been willing to devote the time and resources tomastering it. There has got to be a rational reason why one kid grows up to be Bobby Fisher and another one doesn't!
dubina said:"Can educators find ways to encourage students to engage in the kind of effortful study that will improve their reading and math skills?"
Maybe. But suppose reading and math skills aren't the highest objective.
I think the point is that, whatever ends up being "the highest objective" can be much more successfully encouraged by chucking the notion of innate talent and focusing on "effortful study".
It is urging people to take advantage of the fact that the environmental factors, which are controllable, are the really important ones.
The article shifts the focus from an issue of "talent," which I think people concieve of as a sort of effortless understanding and insight, to one of insight earned through sustained concentration.
Only to those to whom they are obvious :)dubina said:Yes, those things are obvious.
I'm not familiar with this quote. In general I've become fatigued by people trying to unlock the Einstein secret. It's clear from reading his words his success was due to his subjecting the problem at hand to an excruciatingly slow, deep, point by point, logical analysis. He never felt compelled to rush to understanding because he was convinced he was "retarded" as a result of being told as much by teachers and other adults. Therefore, I believe, his success came from feeling himself to be at liberty to think things through at a speed appropriate to a "retarded" person.For example, Einstein's reply to Hadamard's question (How do you do what you do?) was somewhat insightful, but it left too much to the reader's imagination. .
It's common to misinterpret an apparent facility for a certain activity as "talent", an uncontrolable result of the toss of the genetic dice. In most cases, I think, the facility has actually been encouraged in many ways, though some may be subtle, by the parent or anyone in a position to influence a child. In any event, it hasn't been discouraged.
This is the first time I've ever encountered this kind of file attachment on a forum and, as a computer naive person, I'm leary of opening them: when I clicked on one it turned out to be something I would have to accept onto my computer. Sorry, but I feel a bit squeamish about that. Any way you can just quote the salient parts here?dubina said:zooby, here are the two file attachments that I mentioned in the previous post.
It would be very helpful for the purpose of psychological investigation to know what internal or mental images, what kind of "internal words" mathematicians make use of: whether they are motor, auditory, visual, or mixed, depending on the subject which they are studying.
Especially in research thought, do the mental pictures or internal words present themselves in the full-consciousness or in the fringe-consciousness...?
My Dear Colleague:
In the following, I am trying to answer in brief your questions as well as I'm able. I am not satisfied myself with those answers, and I am willing to answer more questions if you think this could be of any advantage for this very interesting and difficult work you have undertaken.
(A) The words or the language, as they are written or spoken, do not seem to play any role in my mechanism of thought. The physical entities which seem to serve as elements in thought are certain signs and more or less clear images which can be "voluntarily" reproduced and combined.
There is, of course, a certain connection between those elements and relevant logical concepts. It is also clear that the desire to arrive finally at logically connected concepts is the emotional basis of this rather vague play with the above-mentioned elements. But taken from a psychological viewpoint, this combinatory play seems to be the essential feature in productive thought -- before there is any connection with logical construction in words or other kinds of signs which can be communicated to others.
(B) The above-mentioned elements are, in any case, of visual and some of muscular type. Conventional words or other signs have to be sought for laboriously only in a secondary stage, when the mentioned associative play is sufficiently established and can be reproduced at will.
(C) According to what has been said, the play with the mentioned elements is aimed to be analogous to certain logical connections one is searching for.
(D) Visual and Motor. In a stage when words intervene at all, they, are, in my case, purely auditive, but they interfere only in a secondary stage, as already mentioned.
(E) It seems to me that what you call full consciousness is a limit case which can never be fully accomplished. This seems to me to be connected with the fact called the narrowness of consciousness (Enge des Bewusstseins).
Remark: Professor Max Wertheimer has tried to investigate the distinction between mere associating or combining of reproducible elements and between understanding (organishes Bergreifen); I cannot judge how far his psychological analysis catches the essential point.
This, right off the bat, strikes me as exotic and peculiar. I rarely have anything going on in my head besides words. This makes me feel like experimenting with replacing word by signs and images, though I'm not sure where I might begin.Einstein said:(A) The words or the language, as they are written or spoken, do not seem to play any role in my mechanism of thought. The physical entities which seem to serve as elements in thought are certain signs and more or less clear images which can be "voluntarily" reproduced and combined.
This is important, I think. He recognizes and acknowledges that the whole process is emotion driven. Some people maintain that thought is separate from emotion, but personally I doubt that's ever true.Einstein said:It is also clear that the desire to arrive finally at logically connected concepts is the emotional basis of this rather vague play with the above-mentioned elements.
This resonates for me. I think of thinking as "mental modeling" which sounds like his phrase "combinatory play."Einstein said:But taken from a psychological viewpoint, this combinatory play seems to be the essential feature in productive thought
His non-verbal "combinatory play" had to preceed, and be completed before, a subsequent and separate translation of the results into words.Einstein said:-- before there is any connection with logical construction in words or other kinds of signs which can be communicated to others.
I'm completely baffled. "Muscular" type? What on Earth could that mean?Einstein said:(B) The above-mentioned elements are, in any case, of visual and some of muscular type.
I just think this part is funny. He's set a "limiting speed" to consciousness: "No one may attain or exceed full consciousness, hitherto to be known by the designation c."Einstein said:(E) It seems to me that what you call full consciousness is a limit case which can never be fully accomplished. This seems to me to be connected with the fact called the narrowness of consciousness (Enge des Bewusstseins).
"Chess, the Drosophila of Cognitive Science" is a phrase coined by cognitive scientist Douglas Hofstadter to describe the game of chess as a model organism for studying human cognition. Just as fruit flies (Drosophila) are often used in genetic studies due to their simple genetic makeup, chess is used as a simplified model of complex human decision-making processes.
Chess is used in cognitive science research as a means to study decision-making, problem-solving, and other aspects of human cognition. Players' moves and strategies are analyzed to gain insight into how the brain processes information and makes decisions. Chess also allows for controlled experiments and the ability to test and compare different cognitive theories.
Some key findings from chess research include the role of pattern recognition and chunking in decision-making, the importance of experience and expertise in chess playing, and the influence of emotions and biases on decision-making processes. Chess research has also led to the development of computational models of human cognition.
No, chess is not the only game used in cognitive science research. Other games such as Go, checkers, and even video games have also been studied in relation to human cognition. However, chess remains a popular and well-studied game in this field due to its long history and the availability of high-level players for research.
Studying chess in cognitive science can benefit society in a number of ways. Understanding how the human brain makes decisions and solves problems can have applications in fields such as education, artificial intelligence, and decision-making in various industries. Additionally, studying chess can also help us better understand and improve our own cognitive abilities.