A new study from Northwestern University shows what many mothers already know: their babies are a lot smarter than others may realize. (Credit: iStockphoto/Jason Lugo)
ScienceDaily (May 7, 2009) - A new study from Northwestern University shows what many mothers already know: their babies are a lot smarter than others may realize.
Though only five months old, the study's cuties indicated through their curious stares that they could differentiate water in a glass from solid blue material that looked very much like water in a similar glass.
The finding that infants can distinguish between solids and liquids at such an early age builds upon a growing body of research that strongly suggests that babies are not blank slates who primarily depend on others for acquiring knowledge. That's a common assumption of researchers in the not too distant past.
"Rather, our research shows that babies are amazing little experimenters with innate knowledge," Susan Hespos said. "They're collecting data all the time."
Hespos, an assistant professor of psychology at Northwestern, is lead author of the study, which will appear in the May 2009 issue of Psychological Science.
In a test with one group of infants in the study, a researcher tilted a glass filled with blue water back and forth to emphasize the physical characteristics of the substance inside. Another group of babies looked at a glass filled with a blue solid resembling water, which also was moved back and forth to demonstrate its physical properties.
Next all the infants were presented with test trials that alternated between the liquid or solid being transferred between two glasses.
According to the well-established looking-time test, babies, like adults, look significantly longer at something that is new, unexpected or unpredictable.
The infants who in their first trials observed the blue water in the glass looked significantly longer at the blue solid, compared to the liquid test trials. The longer stares indicated the babies were having an "Aha!" moment, noticing the solid substance's difference from the liquid. The infants who in their first trials observed the blue solid in the glass showed the opposite pattern. They looked longer at the liquid, compared to the solid test trials.
"As capricious as it may sound, how long a baby looks at something is a strong indicator of what they know," Hespos said. "They are looking longer because they detect a change and want to know what is going on."
The five-month-old infants were able to discriminate a solid from a similar-looking liquid based on movement cues, or on how the substances poured or tumbled out of upended glasses.
In a second experiment, the babies also first saw either liquid or a similar-looking solid in a glass that was tipped back and forth. This time, both groups of infants next witnessed test trials in which a cylindrical pipe was lowered into either the liquid-filled glass or the solid-containing glass.
The outcomes were similar to those of the previous experiment. Infants who first observed the glass with the liquid looked longer in the subsequent test when the pipe was lowered onto the solid. Likewise, the infants who looked at the solid in their first trials stared longer when later the pipe was lowered into the liquid.
The motion cues led to distinct expectations about whether an object would pass through or remain on top of the liquid or solid, the Northwestern researchers noted.
"Together these experiments provide the earliest evidence that infants have expectations about the physical properties of liquids," the researchers concluded in the Psychological Science study.
Hespos primarily is interested in how the brain works, and, to that end, her research on babies' brand new, relatively uncomplicated brains provides invaluable insights. She also is doing optical imaging of babies' brains, in which the biological measures confirm behavioral findings.
"Our research on babies strongly suggests that right from the beginning babies are active learners," Hespos said. "It shows that we perceive the world in pretty much the same way from infancy throughout life, making fine adjustments along the way."
In addition to Hespos, the co-investigators of the Psychological Science study are Alissa Ferry, a graduate student, and Lance Rips, professor of psychology, at Northwestern.
來(lái)自西北大學(xué)的一項(xiàng)新的研究顯示,雖然很多準(zhǔn)媽媽們都知道自己的寶寶非常聰明,但事實(shí)上他們的聰明程度超出了很多人的想象。(編輯:iStockphoto/Jason Lugo)
科學(xué)日?qǐng)?bào)(2009年5月7日)--來(lái)自西北大學(xué)的一項(xiàng)新的研究顯示,雖然很多準(zhǔn)媽媽們都知道自己的寶寶非常聰明,但事實(shí)上他們的聰明程度超出了很多人的想象。
從這項(xiàng)研究中許多準(zhǔn)媽媽們好奇的眼光中我們可以看到,雖然寶寶只有五個(gè)多月大,但是他們就能夠區(qū)分出兩個(gè)很相似的杯子中的物體,一杯是水,另一杯是很像水的藍(lán)色固體物質(zhì)。
研究顯示,嬰兒在這么早的階段就能夠區(qū)分液體和固體。在此基礎(chǔ)上,越來(lái)越多的研究深刻表明,寶寶們的大腦在最初發(fā)育的時(shí)候并不是處于空白狀態(tài),并不需要依靠外界力量來(lái)獲取一定的知識(shí)。
"相反,我們的研究顯示,寶寶們?cè)谝恍┬?shí)驗(yàn)中表現(xiàn)出來(lái)的先天性知識(shí)令人非常驚奇,"Susan Hespos說(shuō)道。"他們時(shí)時(shí)刻刻都在接受外界的信息。"
Hespos是西北大學(xué)的一位心理學(xué)助理教授,他率先發(fā)起了這項(xiàng)研究,并將于2009年5月出現(xiàn)在《心理科學(xué)》這份期刊上。
在這項(xiàng)研究的測(cè)試中,研究人員將嬰兒分為兩組,對(duì)于其中一組嬰兒,他們將一杯礦泉水來(lái)回?fù)u晃以強(qiáng)調(diào)這杯水的物理特性;而對(duì)于另外一組嬰兒,他們則選擇了一杯類(lèi)似于水的藍(lán)色固體物質(zhì),同樣來(lái)回?fù)u晃來(lái)顯示出它的物理屬性。
接下來(lái),呈現(xiàn)在所有嬰兒面前的是,研究人員將這兩杯不同的液體和固態(tài)水進(jìn)行輪流轉(zhuǎn)換。
根據(jù)最近一項(xiàng)公認(rèn)的研究顯示,嬰兒就像大人一樣,對(duì)于一些新穎的、意外的或者是無(wú)法預(yù)測(cè)的事物尤其關(guān)注。
對(duì)于第一組嬰兒來(lái)說(shuō),相對(duì)于液態(tài)水的測(cè)試,他們觀察固態(tài)水的時(shí)間要明顯比觀察液態(tài)水的時(shí)間長(zhǎng)。當(dāng)嬰兒們看到不同于液態(tài)水的固態(tài)物質(zhì)時(shí),他們則發(fā)出一聲"哇哦"來(lái)表示對(duì)該事物更加感興趣。所以,在第一組測(cè)試中的嬰兒觀察液態(tài)水時(shí)表現(xiàn)出了相反的形態(tài)。對(duì)于固態(tài)水的測(cè)試,嬰兒們觀察液態(tài)水的時(shí)間則相對(duì)長(zhǎng)一些。
"同樣變幻莫測(cè)的是,嬰兒觀察事物的時(shí)間長(zhǎng)短強(qiáng)烈印證了他們了解事物的程度,"Hespos說(shuō)道。"他們長(zhǎng)時(shí)間的觀察一件事物,是因?yàn)樗麄儾煊X(jué)到了事物的變化,并想知道這個(gè)事物將如何變化下去。"
基于"運(yùn)動(dòng)暗示"理論,以及杯子里的物體是怎樣倒出來(lái)或者流出來(lái)這一線索,五個(gè)月大的嬰兒就能夠把固態(tài)物體和類(lèi)似的液態(tài)物體區(qū)分開(kāi)來(lái)。
對(duì)于第二組實(shí)驗(yàn)測(cè)試的嬰兒來(lái)說(shuō),寶寶們第一眼看到的其中一杯來(lái)回?fù)u晃的固態(tài)物體,或者另一杯液態(tài)物體。接下來(lái),兩組試驗(yàn)中的嬰兒同時(shí)見(jiàn)證了一個(gè)事實(shí),那就是這兩杯固態(tài)和液態(tài)物體分別被倒入一個(gè)圓柱形的容器中。
事實(shí)證明,前面兩組實(shí)驗(yàn)的結(jié)果是完全一致的。在接下來(lái)的測(cè)試中,當(dāng)圓柱形容器中被倒入固態(tài)物體的時(shí)候,第一組試驗(yàn)中的嬰兒則觀察液態(tài)物體的時(shí)間更長(zhǎng)些。同樣地,當(dāng)圓柱形容器中被倒入液態(tài)物體的時(shí)候,第一組試驗(yàn)中的嬰兒觀察固態(tài)物體的時(shí)間更長(zhǎng)些。
西北大學(xué)的一位研究人員指出,這種"運(yùn)動(dòng)暗示"理論導(dǎo)致了兩種截然不同的猜想,那就是是否存在一種物質(zhì)在液態(tài)或固態(tài)物體的頂部之間傳遞或逗留。
這兩組實(shí)驗(yàn)同時(shí)得出了一個(gè)結(jié)論,那就是嬰兒在早期階段就能夠估計(jì)出液態(tài)物質(zhì)的物理屬性。"研究心理科學(xué)的一位專(zhuān)家推論了這一結(jié)果。
Hespos最感興趣的是嬰兒的大腦是如何運(yùn)作的,因此最后,她對(duì)于嬰兒大腦全新的、相對(duì)而言比較簡(jiǎn)單的研究給人們提供了一個(gè)非常寶貴的見(jiàn)解。她還對(duì)嬰兒的大腦進(jìn)行光學(xué)成象研究,并通過(guò)生物學(xué)上的方法證實(shí)了這一"運(yùn)動(dòng)暗示"理論。
"我們這項(xiàng)基于嬰兒的研究強(qiáng)烈表明,嬰兒從生下來(lái)開(kāi)始就具有主動(dòng)學(xué)習(xí)的能力。"Hespos說(shuō)道,"這同時(shí)表明,我們幾乎用同樣的一種方式來(lái)觀察這個(gè)世界,從嬰兒早期的階段一直延伸到我們整個(gè)的生命歷程,并在成長(zhǎng)的道路上不斷進(jìn)行自我調(diào)整和改變。"
在西北大學(xué),除了Hespos,還有很多人在研究這項(xiàng)理論,比如,心理科學(xué)研究院的合作研究員Alissa Ferry、研究生、以及心理學(xué)教授Lance Rips等。