So , yes. I had my son ask me this question about three months ago.
It was very funny at them time and i didnt have the answer. So i have investigated and came up with this solution/answer. this is from : The answer here
In its latest taunts directed at South Korea, North Korea’s state-run media has called South Korean President Lee Myung-bak “human scum” and an “underwit with 2MB of knowledge.” How many megabytes should a human brain be able to store?
It was very funny at them time and i didnt have the answer. So i have investigated and came up with this solution/answer. this is from : The answer here
In its latest taunts directed at South Korea, North Korea’s state-run media has called South Korean President Lee Myung-bak “human scum” and an “underwit with 2MB of knowledge.” How many megabytes should a human brain be able to store?
A lot more than two. Most computational neuroscientists tend to
estimate human storage capacity somewhere between 10 terabytes and 100
terabytes, though the full spectrum of guesses ranges from 1 terabyte to 2.5 petabytes. (One terabyte is equal to about 1,000 gigabytes or about 1 million megabytes; a petabyte is about 1,000 terabytes.)
The math behind these estimates is fairly simple. The human brain contains roughly 100 billion neurons.
Each of these neurons seems capable of making around 1,000 connections,
representing about 1,000 potential synapses, which largely do the work
of data storage. Multiply each of these 100 billion neurons by the
approximately 1,000 connections it can make, and you get 100 trillion
data points, or about 100 terabytes of information.
Neuroscientists are quick to admit that these calculations are very
simplistic. First, this math assumes that each synapse stores about 1
byte of information, but this estimate may be too high or too low.
Neuroscientists aren’t sure how many synapses transmit at just one
strength versus at many different strengths. A synapse that transmits at
only one strength can convey only one bit of information—“on” or “off,”
1 or 0. On the other hand, a synapse that can transmit at many
different strengths can store several bits. Secondly, individual
synapses aren’t completely independent. Sometimes it may take several
synapses to convey just one piece of information. Depending on how often
this is the case, the 10-to-100-terabytes estimate may be much too
large. Other problems include the fact that some synapses seem to be
used for processing, not storage (suggesting that the estimate may be
too high), and the fact that there are support cells that might also
store information (suggesting that the estimate may be too low).
Even if we accept that the storage capacity of the brain is between
10 and 100 terabytes, estimating how much of that space is “used space”
versus “free space” is very difficult—the brain is simply much more
complex than an external hard drive. Not only do some parts seem to be
involved in many different memories at once, but this stored data is
often being corrupted and even lost. One thing is certain: The notion that humans only use 10 percent of their brain is a myth—information may be stored in every part of the brain.
So how many megahertz does the brain run at? It may be best to say
that the brain is a much more powerful machine made up of much slower
processors. Each neuron seems to have a “clock speed”
on the order of kilohertz, which are a million times slower than
gigahertz. (A smartphone’s processor speed is around 1 gigahertz.) For
this reason, computers are often much faster at completing specialized
tasks, even though they can’t replicate all the varied functions of the
human brain.
While futurists like Ray Kurzweil cite Moore’s law—the
tendency of computers to become twice as powerful about every two
years—to predict that we will be able to build computers more powerful
than the human brain within the next two decades, it’s not clear that
such a computer could be marketable. The brain is remarkably
energy-efficient, running on about 12 watts—the electricity it takes to
light some high-efficiency light bulbs. It would require so much energy
to run a computer as powerful as the human brain—perhaps as much as “a gigawatt of power, the amount currently consumed by all of Washington, D.C.” —that it may be impractical.
SO TO ANSWER THIS QUESTION HE ASKED ME THE SHORT ANSWER IS ....: 1 million megabytes.
Lol. I thought it was funny at first but then realised it was a uniuqe question and decided to investigate and post the answer on here and tell him the answer as well. I hope this was interesting and fun for as it was me. Thank you.
Please have a look at my :
Youtube...my youtube channel
My other blog: random blogging
Donate if you enjoyed this post :)
SO TO ANSWER THIS QUESTION HE ASKED ME THE SHORT ANSWER IS ....: 1 million megabytes.
Lol. I thought it was funny at first but then realised it was a uniuqe question and decided to investigate and post the answer on here and tell him the answer as well. I hope this was interesting and fun for as it was me. Thank you.
Please have a look at my :
Youtube...my youtube channel
My other blog: random blogging
Donate if you enjoyed this post :)
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