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posted by martyb on Thursday September 08 2016, @01:42AM   Printer-friendly
from the missed-it-by-thaaaaat-much! dept.

An interesting article about the Study of Mathematically Precocious Youth (SMPY) program and their findings.

Study of Mathematically Precocious Youth (SMPY), which would transform how gifted children are identified and supported by the US education system. As the longest-running current longitudinal survey of intellectually talented children, SMPY has for 45 years tracked the careers and accomplishments of some 5,000 individuals, many of whom have gone on to become high-achieving scientists. The study's ever-growing data set has generated more than 400 papers and several books, and provided key insights into how to spot and develop talent in science, technology, engineering, mathematics (STEM) and beyond.

With the first SMPY recruits now at the peak of their careers, what has become clear is how much the precociously gifted outweigh the rest of society in their influence. Many of the innovators who are advancing science, technology and culture are those whose unique cognitive abilities were identified and supported in their early years through enrichment programmes such as Johns Hopkins University's Center for Talented Youth—which Stanley began in the 1980s as an adjunct to SMPY. At the start, both the study and the centre were open to young adolescents who scored in the top 1% on university entrance exams.Pioneering mathematicians Terence Tao and Lenhard Ng were one-percenters, as were Facebook's Mark Zuckerberg, Google co-founder Sergey Brin and musician Stefani Germanotta (Lady Gaga), who all passed through the Hopkins centre.

[...] Such results contradict long-established ideas suggesting that expert performance is built mainly through practice—that anyone can get to the top with enough focused effort of the right kind. SMPY, by contrast, suggests that early cognitive ability has more effect on achievement than either deliberate practice or environmental factors such as socio-economic status. The research emphasizes the importance of nurturing precocious children, at a time when the prevailing focus in the United States and other countries is on improving the performance of struggling students. At the same time, the work to identify and support academically talented students has raised troubling questions about the risks of labelling children, and the shortfalls of talent searches and standardized tests as a means of identifying high-potential students, especially in poor and rural districts.

[...] Although gifted-education specialists herald the expansion of talent-development options in the United States, the benefits have mostly been limited so far to students who are at the top of both the talent and socio-economic curves.

http://www.scientificamerican.com/article/how-to-raise-a-genius-lessons-from-a-45-year-study-of-supersmart-children/

[Also covered by]: NATURE


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  • (Score: 0) by Anonymous Coward on Thursday September 08 2016, @04:38AM

    by Anonymous Coward on Thursday September 08 2016, @04:38AM (#399026)

    This is such pseudoscientific babbling, these are the people studying "genious"? The real point of interested is these fakers are pissing away the cheap oil/coal energy we have on this kind of BS:

    Such results contradict long-established ideas suggesting that expert performance is built mainly through practice—that anyone can get to the top with enough focused effort of the right kind. SMPY, by contrast, suggests that early cognitive ability has more effect on achievement than either deliberate practice or environmental factors such as socio-economic status.

    I'm not the first to think so either:

    “Biologists summarize their results with the help of alltoo- well recognizable diagrams, in which a favorite protein is placed in the middle and connected to everything else with twoway arrows. Even if a diagram makes overall sense (Figure 3A), it is usually useless for a quantitative analysis, which limits its predictive or investigative value to a very narrow range. The language used by biologists for verbal communications is not better and is not unlike that used by stock market analysts. Both are vague (e.g., “a balance between pro- and antiapoptotic Bcl-2 proteins appears to control the cell viability, and seems to correlate in the long term with the ability to form tumors”) and avoid clear predictions.”

    http://www.ncbi.nlm.nih.gov/pubmed/12242150 [nih.gov]