In Brief

Your Brain Needs 1.5 MB of Storage to Master Your Native Language

A book at a library
(Image credit: Shutterstock)

At one point we were all babbling babies, our brains producing sounds no more complicated than adorable "ahs" and "coos." But during our early explorations, we began internalizing words and they soon began to have meaning.

Now, a new study suggests that learning a language between birth and age 18 is not as effortless as it may seem. An average English-speaking adult will likely have learned about 12.5 million bits of information related to language, a group of researchers reported March 27 in the journal Royal Society Open Science.

"Bits" refer to information that's stored in 0's and 1's, the typical format used in digital devices like computers. The human brain encodes information in a different format, but bits can be used as a comparison. The researchers' estimates are based on a number of calculations and computational models.

"It may seem surprising but, in terms of digital media storage, our knowledge of language almost fits compactly on a floppy disk," the authors wrote in the study. In this case, that would be a floppy disk that holds about 1.5 megabytes of information, or the equivalent of about a minute-long song as an Mp3 file. [3D Images: Exploring the Human Brain]

The researchers estimate that in the best-case scenario, in a single day, an adult remembers 1,000 to 2,000 bits of their native language. In the worst-case scenario, we remember around 120 bits per day. 

(The lower estimate is equal to the amount of information stored in this sequence: 0110100001101001011001000110010001100101011011100110000101100011

01100011011011110111001001100100011010010110111101101110)

Much of this 12.5 million bits of language information stored in the brain is not related to grammar and syntax, but rather is about word meaning, according to the study.

"A lot of research on language learning focuses on syntax, like word order," co-author Steven Piantadosi, an assistant professor of psychology at UC Berkeley, said in a statement. "But our study shows that syntax represents just a tiny piece of language learning, and that the main difficulty has got to be in learning what so many words mean."

This is also what differentiates human learners from robot learners, he added. "Machines know what words go together and where they go in sentences, but know very little about the meaning of words."

Because word meanings can be very similar across languages, Piantadosi added that bilingual people likely don't have to store twice as many bits of information. 

Originally published on Live Science.

Yasemin Saplakoglu
Staff Writer

Yasemin is a staff writer at Live Science, covering health, neuroscience and biology. Her work has appeared in Scientific American, Science and the San Jose Mercury News. She has a bachelor's degree in biomedical engineering from the University of Connecticut and a graduate certificate in science communication from the University of California, Santa Cruz.