CrossRoads 2017
From Viewpoints Intelligent Archive
we could think of no better way to close out this amazing pot provoking conference
in this conversations we've had with all of you and to
that to have our next speaker who really does not need
any introduction if you're not familiar with him
I would recommend you look up his Wikipedia page and
and it goes on for quite a while so I will not go
into a lengthy introduction ladies and gentlemen Alan Kay
great that's the best introduction
I've had a long time because
you know a long one doesn't help to talk so
lots
of people are really engaged
now in trying to get computing to
children that's great because I
got that itch and
urge for lifetime from the first time I met
Seymour Papert and Cynthia Solomon in
1968 and when I
was in grad school
I have been a professional
programmer before that
I knew
when I saw what seeing I was doing what he
xcept I'd never thought of it before that
this way of using a computer this these
properties of how certain
kinds of mathematics and certain kinds of ideas
can be lifted
by computing and also
brought to much much earlier minds much
much younger Minds those things blew
mind and since
Cynthia is sitting here she'll remember that car
ride that we had
first day because Seymour and I were talking around like mad he
was driving he was a terrible driver imagine
what he was like piloting a plane and
and I was sitting in the backseat and Seymour
was talking excitedly to driving
the car and Cynthia was trying to get
him to look at look at the road so that was the that was the
first encounter what's going on right
now is great on
the engagement side of things
and it is also
having this kind of spread out effect
that happens
when things get popular and people get enthusiastic
and so their attempts to find fits
in various ways and
one of the ways of measuring things particularly
in our society is getting things done by
next week or next month or next year or
so and so a lot of things have been going on that
are essentially looking at local conditions and
trying to do something that if
you look at some of the standards in science that are just now
getting looked at in States
some of those standards have been there for 20 years and
some of those standards have been wrong for 20 years
so once something gets in there
it's like chance erosion digs a
ravine and precision you've got a Grand Canyon and it's not
easy to move and so I thought for this talk
instead of complaining like I usually do about this
might be interesting to look at from
different point of view which is long-range view as
we are in the in the
20th century
21st down the
opposite isn't it and
we as I said said
here children born this year
will be 83 at the end of the century and
this is probably the most interesting century
from the standpoint of human beings being
able to affect the conditions around them both positively
and negatively and so I thought
wow that's a not a bad way of
trying to motivate education for
in slow-moving systems like
education systems that might
as well be about things that are important not
just about jobs but about other kinds of things and
so that's what this this talk is about
and we
have the perennial problems of gazillions of
things to learn we don't know what they should be
from year to year and
we have this idea
of ways
of helping people learn these
come up over and over again and they go at
least back to the time of Socrates if not long
before and we have questions of why
so I'd
like to first look at what
we should learn in basic idea
here is in an hour talk I can't
possibly do justice to this I'm not going to
try I'm going to try and gesture use what I think
you already know and understand to
just bring these things to the front of our
our thinking again
and one of these things
actually I
forgot to say one thing there
and that is
powerful ideas when
we get fluent in them are like adding
new brain tissue that nature didn't give us it's
worthwhile thinking about what it means
to get fluent in something like calculus and to
realize that a normal person fluent
in calculus can out think Archimedes
right if you're fluently if
you have to Scrabble around at it if
you're fluent at reading you can
cover more ground than anybody in antiquity could
in an oral culture you're not fluent in reading you're still in an
oral culture so part of the idea is there
are powerful ideas and there are these fluencies fluency
doesn't mean you're a pro it doesn't mean you're making money half
you're above so we're the mechanics
of doing it are not in your way
and you're able to use this as I
call these brain ones every
time we learn something powerful to brain lift and
one of my favorite stories which
we know partly because Einstein wrote
about it in his later years was that he was sick
with the measles at five years old and
to keep the kid amused
his father gave him a compass and
of course compass compasses are fascinating
because they do somehow point
in the same direction no matter what you do
to them and people have used them for thousands of years for navigating
but Einstein said this was the
first of a few really
profound moments in his life
because what he said was
something deep something behind
things something deeply hidden so
didn't get hooked on what you could do with the compass
he was able to ignore
which most people can't but he was able
to ignore the thing that was right in front of him essentially
to look at the
the compasses shadow and
so
when we think about what we're trying to
do with computing we want to think about what part
of more learning should be about using the compass
and what apart
should be about the shadow part of it is there is a shadow
the shadow of the compass
is a lot of things pretty much
our modern world isn't shadow of this compass
because it was the compass that was first used
to show that electric currents
generated magnetic fields that could swing
the compass and he swung a compass a big
compass in the right way you could generate electricity so
that gave us motors and generators and the
rest of the 19th century the 20th century proceeded
from there so this is enormous theory of relativity came
out of the compass because a theory or special theory
of relativity was about dealing with Maxwell's equations which
were about precisely what the interactions
of the electric and magnetic
fields are about so
often in something
that is really fun really interesting and really engaging
there's something that is completely missed
so a good question
for people who are dealing with computing is
what if what's important about computing is deeply
hidden I can
tell you as far as
this one vishal was here vishal
runs an enormous company as you all know
least a hundred thousand programmers right yeah
so most of the
computing that is done in most of industry completely
misses most of what's interesting about
computing so they are basically at
a first level of exposure to it and
they're trying to optimize that think about that
because that was okay fifty
years ago because
businesses weren't that interested in computing and so they
didn't have a huge influence on universities
now they do now a
lot of university courses are about vocational training
for business now
what we learn in an AP
course in high school just happens to be taken
from what most universities think of first
year and computing should be that's influenced by
business we've got this trickle-down effect
of stuff that is actually not good for
anybody who's really trying to learn computing it is
good for jobs so thing
to think about is if you if we're saying K through
12 and not just 10 11 12
we need a completely different set
of ideas for starting
with K say up to the 8th there's
a chance of getting out of this
potential wealth that computing
has been trapped in commercially that is influencing
everything it is really tricky because
now the children want because
they want to be like adults they want to
learn what adults are doing whether adults are doing anything
reasonable or not so
this is a very tricky thing to think about
so
take a look at this this guy knows this
truck could fall over and crush
him but he also knows the person in there
being a hero
few
percent of any situations
like this will turn heroes
good look at all the reference people do they could be in
there helping but now we've got
their out an old
okay so
humans are able
to respond when there's a disaster in
this recent awful Manchester
bombing the homeless people jumped in to
help people
just do because the way
we're set up genetically is when things
are vivid enough when they're writing assignments when they're life-threatening
and to people that we don't even know will respond
it's a wonderful thing
but we just
can't get our imagination to be vivid enough
deal with things we aren't genetically set up for
especially slow changes especially things that hardly
ever happen this is New Orleans
after Katrina well yeah was the hurricane but
guess what New Orleans is years
and years ago New Orleans was fitted with pumps to
pump all the water out the only
pumps that actually worked at all
during the Katrina thing we're the first ones
put in in 1912 by Baldwin
wood one of my heroes he was
the guy who all said that he had the basic idea of the pumps that the
that they used in Holland
before they built the barrier they're
the all the newer pumps were never really
tested in there and they failed within a couple of hours and
so we got this
absolutely could have been prevented like
so many other things but people
sprang into helping
people here after the disaster but
we have a hard time dealing with disasters
before they happen it's not that we can't
believe in things or have vivid imaginations
we believed in things like angels for
hundreds of thousands of years and gods and
demons
no problem we dream
about them which is
get rid of Bible
says - and
why not cats as witches this is
a engraving from the great cat cat
massacre in Paris in the 17th century if
you're interested in weird human history
there's a book called the great cat massacre and it's
about a large and
called extraordinary popular delusions and
the madness of crowds which I commend to you of
things that people have gotten interested
in and foamed over and lynched
in this case they killed more
than a hundred thousand cats in Paris
and of course they got a bunch of rats for their
reward a little bit later but
doesn't matter there are certain kinds of things we
can really imagine and the
problem is we can't imagine things like this
and I was
on actually an imagination commission
this is an environmental research
and education Directorate at NSF
actually doesn't it's
not like the computer science Directorate it doesn't have
to have a staff this is a directory called a
matrix directory directory tor a phantom directory
it's set up
as an interdisciplinary group
of members of other advisory
boards in this case the
lingua franca of this group was
systems so they're a geologist
there were oceanographers I was
because I was a biologist and also a computer scientist
and the job of this group is to write books for the President
and maybe know more but
when I was there we we
did write books for the President and for Congress and
this is one we wrote while we were there trying
to explain to government
just how delicate
some systems that seemed to be stable actually
are and just
how careful you have to be and
we led with
something didn't have to do with the climate because
it was controversial them as it is now we lived
with something that it's absolutely known to be man-made which is
dead zones in the oceans okay and
anything about this you know there's a dead zone twice
the size of Florida outside of New Orleans
that is made from
fertilizer runoff on the Mississippi River in the Chattahoochee
Basin but that
gives rise to algae the algae eventually get rid
of the oxygen and you have this enormous dead
zone and in the ocean why hasn't
it been fixed still going on the answer is the
United States has no governing
body for dealing with rivers
every river in the United States is dealt with
half out to the middle from
one shore by whoever is on that short out to the middle from
shore and by state to state so if you look at the Mississippi
River it borders on a gazillion
states none of whom could ever get together just
just because things were getting poison
biting and it was inconvenient for the farmers
and you know the story so there's an interesting system
story that something that was completely understood
of what the problem was completely understood that how to fix
it was easy to fix it
couldn't get through the political morass
because there wasn't a pre-existing Authority
and
so one of the ways we used to
try and get Congress to pay attention
and
we say look you know this seems to be stable
and look if I poke it
comes back pretty resilient takes
a lot of effort to
fix a lot of effort to poke it so it's probably safe
but you know what
if the system is like this
notice in both cases
once that thing topples
the amount of energy needed
to get it to either of the previous equilibria is
maybe a hundred times or a thousand
times more than it took the toppling pick the
toppling is harmonic you don't need much energy
to put one of these things over
so if you're going to teach your children something early
and use computers here's one
you can start off with this and
instead of worrying about some sorting algorithm
which is absolutely unimportant to learn
doesn't even have anything really much to do with computing
really computing is about
systems it was only about sorting algorithms
for a couple of years in the 50s it's
hung on and on arm because they're simple you
can do everything but it's completely irrelevant compared
what systems our particular systems that have feedback
loops in this is one of the things that
children absolutely have to learn they have to learn early
because adults
are put into a position much
later on of being faced with something that goes against
some belief that they already have well
you can
hide my props here
yeah so what about the earth
same deal
comes back we
wind up with one of these
think about toppling the major systems
of the planet most
people have not the faintest idea of
how much energy a single hurricane even has
its vastly more than all the nuclear
arsenal we have ever made or hope to make
so once you
allow this
to happen you could
it be easily and I'm not just giving
a scare talk here you could actually be
producing a hundred thousand year event
for things to recover
that event might not involve us at
the end of it can't
completely destroy the planet just
by global warming and killing off stuff that's around but
you can make it awfully unpleasant for
us so
go back to this kit again what
is the problem well the problem is
the world that we live in this artificial world
we call a civilization is really complicated
already when everything is going well it's
still complicated it's so complicated
and going so well and all
the people worry about politically is work that
means things are really going well
because you don't worry about work when you're starving
worry about food
so these are just some of the things that
are more important than work but they're
all part and parcel of the same thing now
if you grow up to be an adult yeah you have to have
to worry about but an adult every adult
in the society should worry about the next generation whether or not
your kids are not that's part of the deal having
a rich life not just one
that copes and gets by being a citizen I
just throw in the United Nations
Declaration of Human Rights because it's
worthwhile reading if you haven't read it it's nice isn't ours and
it also has
a much better theory
about looking at what humans and human rights are
not a bad thing to retreat to what you're trying to figure
out what you should be doing and then to
take this stuff which is kind of when things are going
well and you load it on
really a hundred things I've
just got four here that are
in store in the 22nd
century the war
and slavery and trafficking you're going
on right now drinkable water doesn't
exist for 70% of the
population almost
all of the Earth's population does
not have good water to drink now
to me that's a moral crime that's outrageous
yep
Trump worrying about whether we should be paying money to help Europe
but we've got some big bigger
problems in the future and
another one is
this one I've
just started looking into this again this
is the kentucky lady who
was here yeah hi so here's
here's an interesting thing that I just
got out of the book I read in the last week and
that is the urbanization
in the world is at the rate of one
larger New York area or one
larger LA or is LA which is 16
million people every two months
one New
York City every
two months is the
urbanization and it was just a few years ago that we
world went past the halfway point where more
people are now living in cities even in sub-saharan
Africa so
this is an immense problem
because if you couple it with the other thing
that's going on
which is urban decay and every
other kind of detail like the entire American infrastructure
is way overdue for an overhaul
this is a bill that we kept on putting off amortized
into the future hoping some future generation
would pay for it I'm not going to be the one
to pay for it I figure
out exit stage left sometime in the next 10
or 15 years but you will be the ones to
pay for it or you get
this force against
this force all over the world
so the Chinese are the only ones who actually have a plan
so they plan in the next 20
years to build 300 cities
of more than a million people each
think about that for a second
that's in the next 20
building cities for the entire population of the
United stays because that's
what their problem is and
our old friend Carl Sagan had
this to say quite a few years ago but it's completely
appropriate what
hell are we doing well the problem is we can't imagine anything
except the flood and
they think they accept being
to jump in and save somebody out of a car but
we can't imagine is saving 7 billion people on
a much bigger vehicle ok
so back to the baby
so part of this is because
genetically we're set up for this
every human being on earth still has
the genes from a hundred thousand years ago
that recapitulate into what is called
traditional culture and anthropologists
have studied these cultures for many years and
over the last hundred
or more years and found about 300 things
that are never absent from any of these
cultures every culture has a language every culture
has stories every culture has kinship
every culture has revenge
these are called human universals
by the anthropologists so there are things that
are we have genetic propensities to
and the COPE each culture supplies a different
set of parameters for these universal categories
so simple way of
saying as humans are tuned to the visible the
small the nearby the quick the soon the few the social
and to endure we
are not tuned to make progress progress
was an invention of the 18th century was a radical
idea the
word was originally promised progress
in progression
word progression existed before progress
progress so
and pretty
much every invention of civilization
has been something that tries to prop this
off or to deal with it or to get around with for
instance our propensity for revenge and Vendetta
that's what the law was invented to
do the propensity for
inequity the
propensity for being
on a subsistence existence and so forth
and of course
if you take the baby
hundred thousand years ago or anywhere in the world and bring
it up say in Paris you're going to get a Frenchman
or French woman because that is
the way our genetics works we automatically
start glomming
on to all the local parameters for these hundreds
of things that our
genes drive us to learn so
by the way if you like Montessori she
was one of the two or three leading anthropologists in
Italy at the time as well as being the first
woman and the
Anthropology was her hobby but
she was a deep to his deep into
it and a Montessori School is
an attempt to embed not this in
the school but the great ideas
of the civilization that the kids
are going up into because you realize you
can't teach epistemology in a classroom
it's even
trying to teach French in and classroom over here
just take the kid to France this is an old seymour
idea goes back to Montessori
and when Seymour talked about microworlds
what he meant was making
something it not only was a little
content world lifts of
ideas but also something that the kid could respond
environmentally to not as a lesson but
as a place to live for a while so
these are great ideas these ideas were used in inventing
the graphical user interface at Parc long time
ago
so here we are in the 21st
century and
some
of us are just finding out we live on a planet
remember we're local
so it takes some work here
and it's if you like the internet
for crazy cats and flat
earthers you can find both
and
in the 20th century
started becoming it wasn't until about
1920 or so that people realized
that the universe was as big as it was up
to then it was thought that
it wasn't any bigger than our galaxy
part of it was they had a hard time
seeing faraway blobs of light as
actually other galaxies they thought they were
stars for a while
and most of us are just waking
up to the idea that it's not just a hundred
people around us like we have right here this is a typical
human group we should have a campfire here
to really do it because
now I'm talking about something that's essentially literary
here in the exact
same means that some cave person addressed the
tribe 100,000 years ago think of the incongruity
of having conferences when
what you should be doing is reading five times faster than
somebody can think and learning ten times more than you
can get in an oral they just and
then translate that to school of
just how inefficient school is about
getting and not just inefficient within the wrong form yeah
so there's not only billions of people but
there are thousands of cultures and subcultures and and
thanks
to social media every person is their own
culture now and they will fight
vociferously for their own identity in the
midst of something where they can't win
right you have to be a mass murderer to
have any notoriety and seven
billion people all exposed so this is a McLuhan
pointed this out a long time ago by the way that we
ever had a global village he said it would be a disaster
because people would feel a complete loss
identity and they'd spend the rest of their lives trying to get it back
sometimes in violent form
and then we have this technological infrastructure
that's a self-portrait of the internet but it
stands in for every other kind of thing we have
including agriculture which is a
product of Technology every kind of thing that
we have and
well
we just discovered us modern medicine really
dates to world war two that's my
life I was born in 1940 so
when I was born we didn't really have it we didn't have anti
biotics very little
was known about how things actually worked and
again in the last century
or so we started to learn about the human mind
both cognitively
and emotionally so
these a lot of systems
so I like to think this is my other context
besides the 22nd century the
22nd century out there and the
context were actually in is
this systems
concept the ones we live in ones that we are
and I could show it
on the slide any other way but but by putting up this kind of web
work there these systems are not unrelated it's
use talk about things
our single little nuggets they don't
have a glow so every time we say something
we're saying something that isn't true because we're
saying a so pipe
this is why it's frustrating to
talk because
the way we deal with these things
is not by using ordinary language
and it's simply what we'll just use Einsteins
phrase they're all deeply hidden
the system's aspects of things
are deeply hidden almost everywhere then especially in
cases though you can hardly find any hint of it
at all
okay
so the
big shifts I just
reduce this down to three enormous
important changes first
one with this hundred thousand year one of
basically thinking everything is everything
works because of angels and this
literally was in one
of the main papers written in the 17th century
that timing because Newton was
also writing the Principia Mathematica at the same time
basic idea is that you know if the plants are
going around in a circle then
centripetal force
should force
of orbit so what's keeping them in orbit and one of the
well they're angels on the other side of the planets beating
their wings to keep the planet
into the center so
this is a tough one to shake because
it's the simplest explanation
that our genetic minds can come up
with it's called a form of animism
so the 17th
century we got this we can call it
from miracles the mechanisms if you want from
Angels the gears and
this was the
scientific paradigms that things
had causes and you could track down the
causes if you were really careful and you can make models
of the causes and those models would tell you about other causes
and this change
is probably the biggest in my opinion is the biggest
epistemological shift in human history
nothing compares with it and
if you want the book that has the greatest
leap that has ever been made that's Newton's
Principia but
in the 20th century we had
something a
lot looser and a lot bigger
than gears
especially once biology started getting elucidated
anybody know how many cells we have in our body
like within a
trillion no okay well it's
a good no numbers are sometimes useful so
it turns out me walking around the
re there are a hundred thousand cells I mean
100 trillion cells hundred trillion cells
unfortunately
only 10 trillion of those have my DNA in them
same
with you 90
trillion cells that don't have our DNA what
are they well if you gathered them all together they're
all the microorganisms in our body and make a slime
ball about like this just
loaded with some of them are trying to eat you up and
some of them are trying to put you back together and most
hem don't give a damn they're just along for the ride so
these systems
work in a completely different way than gears
and we
have to heed that for a variety of reasons
not just for general knowledge
but because
for those of us
who are interested in children at an early age this is when you
learn it or you don't it's
not that you can't learn a foreign language or
to play classical piano with age 40
most people don't
so for practical purposes if you don't learn this
that is really difficult really different early
if you've got a problem and by
the way if you look at
what they call science in especially in
the early grades but even in grades 8 6 through 8
it is underwhelming to say the least to anybody
who's a scientist it's hardly recognizable
everybody
is having a good time but
the chances that the children are actually
anything important about science are pretty darn low
and of course this stuff which
has been around now for almost a hundred years maybe 80
years isn't being touched
here's the thing that's really important
for you to understand today's computing is mired
in years why do I say that
because the kind of
coordination you have to
do to call a procedure to use it
as a sub part is gear like it
is tightly meshed it's carefully planned
and almost
all computer programs have that tightly meshed aspect
to them however the Internet
does not the Internet is the size
it is ten eleven orders of
magnitude in the number of notes that it
has precisely because it is not like what computing
was like in the fifties not at all and probably
the most important thing I can perch on you
today is to try and understand that computing is not exactly
what you think it is most computer
people do not think the Internet is a computational
device because it works so much
than any computer program they've ever tried think
about it the internet doesn't break an
internet attack is not an attack on the Internet
has never been attacked because it can't attack it
all it ever gets attacked is
inside the computers written
by people who don't understand this you have to understand this
so what happened when the internet get done and
a few other things back in the 70s or
so now 40 some-odd years ago was
a big paradigm shift in computing and it
hasn't spills out yet but
looking ahead to the 22nd century this is what you have
to understand otherwise you're always going
to be steering by looking in the rearview mirror you'll
never get to where it's going to go every curriculum
will be doomed to being completely obsolete before it's ever
put out there
ok so I'm not going to go through
I'm not going to go through
these things I'm just pointing
out that on big diagrams like this which
I urge you to make your own versions of you can once
you put these things up there they immediately lead to good questions
about education because
there's a lot of stuff
like a pretty cool one is that
Wow if you try to go after this as
old disciplines like
science and math and bla bla bla bla bla you're
screwed but
if you notice that every single one of them uses the language
of systems to describe it you can come
up with a new integrated way of thinking about these STEM subjects
there wouldn't be ste M would be just a s
and there's some great books I'm
going to go through these this book came out just last week
I got it I read it over
the weekend I just loved it so much as
a guy at Santa Fe Institute I just
loved it so much that I thought about changing
this entire talk and just doing it from this book this is a magisterial
book it's written for the general public and
can't
fabulous while
we're on Santa Fe Institute here's dude Kaufman an old friend
of mine this is really a crazy book but you
want to sometimes when you learn about things it's
helpful to learn crazy ideas
about systems this is a systems book also
written for the general public here's
one of my favorite people who does get it
so Irene Lee
undergraduate degree in mathematics
she was associated with the Santa Fe Institute but
basically she understood that
it's not about computing per se
because science is the big
idea that's why people even tax science
the end of computing even though they don't mean it
it's cachet right
it's like library science
but science is
the big idea and computing is the
underpinning of the new modeling
for ideas that's what
I read and understood this it's not the only one
to understand it but she has been tireless over the last 10
years or so of trying to make this happen and
right away once
you start thinking this way you cannot use standard
programming languages because you can't get make
systems from them you have to use languages in which
you can make systems that allow you to deal with
things that that happen I'll just
mention because breath
is pretty much my favorite young thinker on
all this stuff I think he's one of the most profound
people we have around
this book some of you may
have read
very important if you haven't
read it read it because it's
what he does here is he does
what he calls expository fiction its meaning
lies lies made for
explaining something that's too complicated to explain and
the expository fiction
he comes up with is just completely brilliant
and you can take it a long way before
you get into dangerous areas on
it and what he decided was what
if we just took every mechanism in
the brain that is there to respond
quickly like a half second
or less somewhere in that ballpark
and we're all over the brain there
therefore came about different times evolution you know
they just aren't a system as he points out but he called them system
what that system one is not a system
it's just the
name I'm using for this thing and now I'm going to take everything
else that thinks does the thinking slowly I'm
gonna call it system two so
this is just complete bullshit right but
what's great about it is just from
staying with that and taking a look
at what's actually going on anybody
who's interested in learning anybody's interested in teaching can
learn an awful lot about really
good approaches in particular
to people who did not like rote learning when
they're in school well you're right
because inverse rote learning you
don't learn the you learn the
notes but not the music but the
problem is if you do the cognitive side
only which is a reaction to it you
completely lose because the cognitive the
different thinking things
in order to get really good slow thinking
going you have to have something it is tough
it is rather like learning to play a classical musical
instrument where it's basically cognitive
it's basically emotional but you have to have the chops or
it's basically like reading you
have to get really skilled at reading before
you forget you're reading and getting
to that place in all of these areas that's
really tough and with that take
a look at Frank Smith has written a lot about
what literacy is and he treats it in a nice
whoops treats it in a in
a way that's nice for us
because
you
expect them to talk about the English language he
says no forget about the English language it's
really about ideas because littered
the literature are there because there's something worthwhile
reading and writing about so
we have to think about what the ideas are that
we want to put all forth all this effort and
we start finding representations and
those of you who know about the history writing
in a natural language you'll know that most
of the early efforts were in fact
rather in story form even
for things that weren't stories that's because
didn't know any other way of structuring this
course other than what had been used around the
campfire and it took quite a while it's
really the 17th century when people started to look at
other ways of writing prose
Thomas Hobbes for example was
one of the inventors of modern prose forms
and in between you've got always pondering
and finding and these things Co evolved over time the
representations help the ideas the
ideas that you get from there
back on representations if you're lucky unless
you have in academia because academia
is tend to freeze some convenient
representation to teach and they tend to stove-piped
himself off so this was CP snows
two cultures lecture you may have read
about where he took the
literary culture in england to task
for never learning math and science despite
the fact that most of the interesting
ideas in the 20th century had mathematical
and scientific content and despite
the fact that newton's principia had math
and geometry and other things in it and it's a
work of great literature so
academia is one of the tougher
barriers and
so
I just said that I'm getting
older so I have to put in these little I hate bullets
but they're now more used
to me than they are to you
okay so here's the gazillion
things of a huge gazillions of
thing these are just things I jotted down
for ideas
of interest now and going
forward into the 22nd century there
are a lot of them notice
there aren't too many that really seem
to have too much to do directly with computers but if you look at carefully
competing underlies every single one of them
understanding them
so it's just
like
when i kritis
to criticize programming languages
so one of the things I criticized asked
about a programming language both what kind of systems can
I make in it if I'm a kid they're really set up
for making things out of simultaneous modules and
hooking them together well most of them are most
things are aggregates I really
uses starlogo
for doing that both languages can't handle any
kind of aggregates except for simple to raise
think about how ridiculous that is
in the age of science it's
a complete disconnect with everything
except what computer likes to use arrays for
simulations here's one how
many programming languages that you're using with children have
can
tell you zero
you can't have three centimeters to five inches
in any programming language and have
to get a reasonable answer because you can't say that
a number has a dimension of
inches or centimeters one
of the Mars missions was lost because of that they
programmed it in language that didn't have this like most programming
languages and the person who
program was thinking in terms of centimeters
the person who wrote the program was thinking in terms of inches and
so a 300 million dollar rocket
failed just because of that
error it's the programming language perfectly
if it was in there about reasoning
and so forth okay so there's
and
they're not isolated things I
can see Hamlet up there about humans
but the real humans are not really isolated from
aggregates from simulation
from systems from any of these things and
if you're introduced to
tiny little ideas in stovepipes
and it's up to you the students particularly
student to make sense of them between the soap
pipes you're in real trouble if you don't have a friendly
adult we actually can steer you through this
morass you're going to be trapped
in a world of non meaning
so the meaning here so I just
somebody said something that sounded good as
it should be fun and should relate to the kids like No
yes of course it should be fun but where
do you get the fun from the important thing about modern
education is it's precisely about teaching
children not to be likely where hundred
thousand years ago it is not about
catering to what kids just want
to do when they're messing around no
we don't want to torture them but
whole point of civilization is to learn things
that are stronger than what
we naturally go up with so of course the stuff is
tough real question is what makes tough
fun hard fun Seymour used to call
it what makes hard fun well it is fun especially if
a bunch of people are doing things together
so the idea
here basic it's about science this is irene lee's rap and
what's the problem
the purpose
of a book understand the force and energy
mechanics and relativity
it was here and they rely
on me the universe I go
they have made fun of me
in high school the concordance all go
in the hole I got lasers wow that's
really cool okay the mass times acceleration
[Music]
strength Yee
did I give you a
reaction here comment something up mattaniah
say okay if
I had time I'd let this is so great it's on
YouTube called physics wars and
yeah so
what's great about science is science is
mature enough so it can see what's funny about itself
I'm not sure the computing has actually got to that point
yet still taking itself very very seriously
but in fact this
exists inside of computing but much worse it exists
in the fortress
of computing against other ideas
so it's after their
resistance for instance to teaching
science with computing because a lot of people who are
pure computer people they want it they want to have
computing be an essential subject
high school what they should be asking for
don't ask for it is a separate subject what you want
is to have the children learn knowledge don't
worry about what you want it's really about
the children so
so let's take a look at
his
idea here
is the problem
when people
look at to see what percentage of the population is
naturally autodidactic and this means
not dabbling in something for
one's own amusement everybody is kind of audited tactic
and of course we all have to do our own learning
in the end learning is actually done by us
but being an autodidact
is a person who can
ferociously take charge and
maps themselves up to the
kinds of learning or better that you would get say
in a good high school or good college and
maybe five to ten percent of humans are
that so
not a lot and so
if we're going to do something that
is going to change education
in some way this is something we all agree
it with here's why you're here is we have to
deal with this genetic thing
that humans have is that we are set up to learn from other people in
fact we're not only stuff to
from who are set up to learn a lot by not even talking about
because in traditional
societies we just go off in a culture and that's what that
is our reality that is what we've learned we don't have to
go to school for most things
o
when this powerful ideas stuff
started to happen yeah maybe back in Greece
don't pin everything on dead white
guys because a lot of stuff is happening in China
right it's exactly the same time and
many many of them in the same direction but
it
started with the symbol of Socrates and
the thing right
away is when you have a great teacher and we've
all had at least one right everybody has
it we as anybody had not ever had a good teacher a
great teacher yeah usually
one or two you never forget
them they change your life the
greatest calling in the world to be a teacher we
just have to get the teachers to find
a way learning more but also
finding a way of leveraging knowledge in a different
way so
yeah when
we have a problem particularly if you happen
to be on that side of the world let's invent a technology
to help how about writing
and the cool thing about writing is
you can get
some of Socrates in there in
fact Plato was able to get enough of Socrates in
there that we still remember both of them and remember
a lot of the ideas think about that so
writing transcends time
and space and if
you know your Greek letters anybody
see what the title of that piece
of writing is there so
this is the feed rest which is one of the
most famous of the Platonic dialogues because it's
about just what I'm talking about this is
not a not as it wasn't Greek in in Greece
this was a copy done about 2,000
years ago or so yeah
and once
you have writing you
can just get a couple of intelligent
he writings together and all of a sudden you've
got something it's above threshold that's a
fantastic invention
except
not enough books but
can we invent a technology
to help sure how about the printing press and
if you like history
most people think the Industrial Revolution happened
in the 18th century but if you think about
Industrial Revolution was the printing press was the very first
invention of the Industrial Revolution yes
Industrial Revolution is
making copies of things very inexpensively and
what you got there is
two things you got the
teacher and the students and the book but
once you can make a gazillion books you got something even
better you got the autodidact in
the room so
so here's the dream of the
last 60 years in computing you may not even heard it
because it hasn't been talked about so much but it's coming back
when computer first
came about people started realizing that
besides all these wonderful things have had for representing
knowledge and representing ideas and simulating
it should be able to simulate
something more than a book can simulate
of what a Socrates can do not everything
but something more and so
I'll just show you the last slide here and then let's
get to ask that
so what I'm earning here
is instead of trying to get to the future just by making
improvements on what you're doing the problem there is you're
assuming that the present is okay and
so trying to take something whereas
the future you don't have to assume the present is okay
and just worry about what it should be and if you think
what it should be using some of these ideas you could then see
what should be going on you can bring that back and that
can be your longer-term project while you're working on
what to do next week thank you thank you very much
thank you so
I think it was I
got asked to of course
I always talk to the time given but
anybody any questions about
sure
will you actually fill
yet if you could wait for something like over we
have about 15 minutes for Q&A and I agreed to stick
around 83 introduces hi I'm Sylvia
Martinez I was wondering if you thought that
Wolfram Alpha was a big step in the
kind of programming languages that you were saying don't exist yeah
so so -
and this again this is a great question because
the future of most commercial
programming let's say
20 30 years from now almost all of
the stuff that kids are trying to learn to get jobs for is
going to be done with by languages like Wolfram
Alpha and the reason
is is be is because the you
know sort of TurboTax for
our large-scale programming
on relatively generic problems
that are relatively understood and so
for pedagogy it's exactly the
opposite because what you're giving the child
is a servant who already knows the answer
right and so if
you think of the the problems
after the aristocracy has growing up with
certain particularly if they hired smart Greeks who
knew all the answers as part of what did the Romans in is
for child you
don't want to give them a language in which you can ask
a question and get an answer so if you made
WolframAlpha be like Socrates where
you ask it a question the system
question they would start getting the kid thinking about
it then it would be good pedagogically but
if it comes back with the answer it couldn't be worse
kind of like you know the Misun misunderstanding
people had about Sim City which got every
it's one of the worst things ever done for education
because because
you couldn't examine the model it used
you couldn't change the model it use I got
after math maxis a lot about that didn't
the educators didn't care because the kids liked it they
did things but look you can't
learn about a city it's the only recourse your
simulation has to crime rate
is the only way you can stave off crime rate is build more police
stations come on that was built into Sim City
could not find it and so
we have to make the distinction between
now if you're learning a musical instrument
even you have to
do things that are hard and the pedagogy there
is to help you do those hard things if
you're trying to accomplish a goal in business what you're trying
accomplish this goal and these are just completely
two different things the one good thing about will
from Alpha which yeah
welcome
yeah well you're thinking Mathematica No
yeah I think I've seen but it isn't
the thing that you can ask it
okay
I'll look at look at
and if I know if I know wolfram at
all it does have units bits
you can add three centimeters to five inches in
it yeah so I'll look at it thank you very much for that
um so my name is Patricia
Pena from the University of Puerto Rico I my
question to you is a kind of was shocked because like
I think of you as the first person who created
an object oriented programming language right uh
you know a success
has a thousand fathers and failures
an orphan okay that's a yeah
yeah so I but I guess I'm I
was early you early but one of the things I love about object-oriented
programming is that you create units
right and then you can transfer you know
translate from or do the translation between the
units and so to hear you say that you
want unit could be implemented into
a programming language kind of to me taste the
that the beauty of voice well object-oriented
yeah so so that is an extremely good
question because yeah when we first did
small talk one of the first things we
did was to see how far you could go
just using objects and
making it do the coercion between one
scale of dimensions and another and
unless I'm completely mistaken the
this you know there's a level
where this is actually worth like it's worthwhile
using an object-oriented language to make complex numbers
and to do other kinds of
things in the number sphere most of the most of languages do
a terrible job going from one form of number
to another and many of the so called object-oriented
numbers aren't odds for
instance they aren't in Java or C
I think JavaScript either so there
isn't a class for those numbers you can't
look to see what's there you can't really add things
to them so
yeah the if you
go deeper into these dimensions thing
like what you need for science it actually is
a parallel to dimensions are
to the physical
world what a type theory is to type
languages in other words they give meaning
there
it's a way of giving meaning and objects are a way of
putting types on things
but
I would
not try and get a third grader
to extend an object-oriented language to
put in dimensions and I absolutely want
a third grader just like I wouldn't try to get them to
write the graphics system later
on I like them to open the hood and see that the graphics system
the same language that they wrote I like them to open the hood and
see that the dimension system is written
in the same thing but it's a question of what what you
want to learn when do when do you need to learn it learning the
dimensions is much more important than learning how to implement
them so you spread
them out that way yeah conversely most of the
standards
in fractions are
given to the children before they can
actually derive those
relationships and there is
where you really would it's really
makes things confusing and to teachers so
what once
went around and talked to teachers at 14 schools and 5th
grade teachers and I asked what one of the questions I asked
was when did you check out of mathematics now
when when did you decide mathematics wasn't for you
and 80% of the answers were
invert and multiply
for dividing one fraction by another and
get it in fifth grade and
if you got an eighth grade it's
trivial because you you just
had a little bit it's just a little bit of algebra you can
just derive it you don't even have to know it you just
set it up and simplify it and it
simplifies to convert and multiply but instead
fifth grade the kids are given a rule that they can't see the reason for
and if you think about fractions
the worst one which nobody complains
about is multiplying one fraction by another multiply
the top and by the bottom nobody
takes about that because it looks reasonable turns
out it doesn't reasonable law it was one of the triumphs
of Greek mathematics to figure out how to do that
right and so there you've got something
where the thing one thing is confusing and the other one is invisible
and both of those I think are bad
discussions and I think every
one of these points that's why I advocate
making a kind of panoply of
projects before we get to curriculum and
standards and those things of just trying to find out what kinds of
cognitive things done the best ways we know how
can children of different ages actually absorb
into their fluency because every
time they get fluent at something it means that opens it up to
be actually use rather than forgotten later
on right now I see that as
omething that is almost a project-by-project
idea by it idea basis and computing
and I've been surprised many many
times by some
by some of the things that children can do
once we figured out a better book
you know when they keep failing it's either
they're cognitively it's just not
there yet to do this thing but on
many occasions you know the fourth or fifth try
we thought of a complete different way of presenting the
ideas and those ideas happen to be an acog of
abilities of the children they just got
them in a most exciting fashion
I think we've all had that experience what I
what I think is missing is
and Cynthia's advocated this also as look
there are a whole bunch of really important
things that were done by the and
Seymour and EDA Sesa in
boxer Mitchell
Mitchell Resnick before he started doing the scratch stuff
we
my particularly group has done stuff for
over 40 years so we have many compelling examples
of really important ideas that children can learn really
well early those are the things that are scattered
and before I would write down
a single line and a standard or a single
word in a framework what I'd like
to do is exhibit like from K through eighth grade
here's a hundred example projects
of computing helping children
learn powerful ideas that would be greater
I just put it up on the wall and then you
can sit down and start thinking oh none of our programming
languages are very good for this
but the but because I'm using different
programming languages to get to so right
away we've got an impetus for doing a new programming language
and by the way if you look
the history and many of you here are just getting started but
the history of this is that
going back into the late 70s
early 80s when a CMS are getting interested
in this stuff they kept on picking one language after another
just because the language was around so
first it was Pascal and it was C and C++
Java
JavaScript Python
never did
any of these reformers sit down and say we
need a pedagogical language
takes too yeah
tough beans spend the two years
because there's a lot of things you can do while you're spending the
two years that's that is what really frost
me is just this expediency of taking
some random thing done four completely different even
scratch scratch came out
of the be toy stuff that we did at Disney but scratch was designed
for explicit purpose of allowing
children in one hour to do a multimedia
project about themselves in the Intel's supported
clubhouses there are a hundred Intel
supported clubhouses malice cut butt scratches
design for is not it doesn't even do all the things
that II toys did and so etoys
is lawns twenty years old is long obsolete compared to
what we should be working on so this is just
a plea for that that the ideas that were
still good most
of the mechanism that was using the past as long did
should be
you know if programming languages were only biodegradable
we do the world
and they just never go away so
for the question with us
yes sir
hello my name is Neil Saul's Griffin I run
a nonprofit called code now I'm also adjunct
faculty at Northwestern University my question is related
to your comments around
cities and systems and I was curious to know how
might someone in a position of influence or
even leadership at the C level particularly in the
United States helped invent the future
well I so
this
this scale book I by
Jeffrey West his one of the things that's
great about this this guy's a physicist so he got sucked
into this stuff the way people
and honest scientists often do
you know he got hooked by complexity in
that most interesting complexities
mathematics that classical mathematics can't
supply so computers come in and you start
looking at this stuff and his
a special interest in this book a
the middle part of the book is about cities and
this
is not a new idea but one
of the great curriculums in
K through eight is the city
building curriculum of Doreen Nelson and
if you haven't seen it you should look at it Doreen
is Frank Gehry's sister she knows
a lot about architecture and stuff
and this is a real systems curriculum
serious systems curriculum and I've
seen it implemented in the best possible
way as young as early as third grade it is absolutely
exemplary you know it takes months
to do it's done without computers
it's done with models you need a lot
of space to do it but it's
it's an example of what
is it that the children need to pay attention to what
is that they need to find out how do they need to organize
it has political parts of it because
a real city is also
rganization and if you're going to improve things
so this I can't
recommend this curriculum more
in a
higher way and so if
I were dealing if I were in the urban environment I
went to high school in New York v on the urban
environment I would use the urban environment as the
starting place David
McCauley wrote a great book called underground I don't you've seen
that book it's one of my favorite books it's
what if the what if the street was transparent
with what's actually down
there how has the city actually run it's all underground
so this visit there's a whole
thing that could be built out of that and today the
ability of the can computer to simulate
complicated things of
all kinds is
you can do a lot of really interesting things about
cities I think the vehicle
for allowing the children to do that kind of programming I
don't know if why but
since I didn't know about the Wolfram programming language
there could very well be
something I know Don Hopkins who is one
of the guys who did Sin City has done an open-source
Sin City that does allow you to
get to the various stuff but
yeah so that I mean the simple
pep talk is that it's really complicated
but the simple pep talk is science is all
around us like Einstein's compass and
the trick to getting into it is you have to ignore
all the distractions that come
into your sense and Sciences is basically about
getting around your senses and the quick perceptions
that we're set up genetically to
do because almost all of those perceptions are quite wrong
right and so it's a bit like
uncovered learning magic learning
how to get behind the scenes of the
actually going on and finding out that it's like
Fineman said really
things the more you learn about them the better they are
they'll lose the mystery they get more mysterious
and a lot of the best things in
science their mystery
is part of their art and
we get into that in history in that art by learning
understanding them more and more deeply and more and more
things so yeah some like I I
think that would be and that's what I certainly would advocate
that to any mayor like
you talk to a mayor or I talked
to the superintendent of a unified
last year and I asked
what is what is your number-one problem and the
person said 9th grade algebra
and I said
ninth grade algebra that the
kids were learning arithmetic algebra
would not be a problem
because what and
part of the problem is if then it's checked
kids don't really understand what the implication of the equal sign is
because they never merely get it and they
never get a good picture of what a number is because
they're taught numerals whereas thinking of a number
of the process of all the ways to make it so if
once you get that down in fourth and fifth
grade algebra is a snap and
so I said to the principal well
look if you just did early
raise mathematics in a reasonable way and a lot
of different ways to do it I pointed them to some of the
backward stuff and didn't want to do it because no
because the parents are not worried about
their kids when they're in the early grades they're worried
about the kids who are not going to leave home after
they leave high school what the parents want is for
kids to get jobs and to get the heck out of the house and so
the whole political pressure in LA anyway is
dealing with the high school problems and for
many of these things is way late because
it is really hard learning mathematics unless
you've gotten some of the skills way of
thinking about relations mathematics is relationships
of relationships that's a job I know I'm
included yeah so I mean
it's frustrating because it's like the
infrastructure where do you start
there's every part of it needs to be reformed I
think you've just treated as an epidemic and
an epidemic you spend a fair amount of your and
energy on triage and dealing
with what's going on right now and you have to put aside 20-25
percent of your existing funds
to try and find a cure for the disease right
because what you don't want to do is to just
take care of sick people for the rest of your life
you want this that we're in the century where
you knock out the germs
well yep the epidemic
is now
these it's it's complicated
because see I advocate that people should go to school
despite the fact that I hated many
things about school and I was there
by and large school it's
better the problem is is
that the preaching
to the choir here if anything but
the biggest problem what's the biggest problem in English
well the biggest problem in English classes they spend too much time
worrying about little tiny things
you can test with multiple-choice tests rather than
one of the big ideas expressed in English you
can't test rhetoric and writing
very well in a multiple-choice test California
did a huge experiment in the eighties where
they tried to go to a really good English
and language arts curriculum any educator here
should look it up they put gazillions
it and it
was all about children writing essays
and hiring people to to be able
to help read the essays and everything it collapsed because
in part because the teachers didn't want to eat the
kids essays in the end
the testing ran one out just because it
was more convenient and I
think so when you when you get into thing you have to ask always
you're in the middle of a bureaucracy was what are their actual
goals what are the
goals and I'll just give
you one National Association of Educational
Progress everybody know that NAEP they
do the reading tests and stuff well
just go on there don't even bother looking at the the
high school or grade school tests forget about k12 the most interesting
thing they have here is they periodically test
the graduates of four-year colleges and universities
in the US on reading proficiency
that is what you wanted want to
look at and just in case you don't want to chase
that down I can tell you that
the in the
1993
the graduates
of four-year colleges and universities in the u.s.
were only 42
percent proficient and if
you look at what proficiency means it doesn't mean really
a fluent reader so that's an absolute scale
used over 42% 2003
it was down to 31 percent
31 percent of the nation's college
graduates are proficient
and reading and everybody else is worse so
what that means to me is this
good because I contain colleges now I don't
have to go after Kaiser drop what
it means to me is the University u.s.
colleges and universities are selling
degrees and they absolutely don't have any academic
integrity anymore they
would absolutely not any institution
with academic integrity would not allow people to
get a degree and not be able to read period
it's that simple so
that is a simple one you don't have to know it's
so glaring it's so shocking that
it but it indicates something
that's bad through the whole chain I don't like the influence
of business on universities on like
I'm on the edge of faculty at UCLA mainly
for students but I'm shocked
UCLA is one of the top 10 places in the country and their
introduction to programming course is still C++
what
here's never a good reason to have
C++ be the first course in a university
vocational training maybe
but so
but Stanford turned itself into a Java
school when Java came out much
distress of the faculty there but the provost wanted
it because they could sell more C's
so we have to realize that at the university
level the universities turn themselves into businesses partly
as a result of the baby boom and there's
a good book if you want to if your endures and follow it up is called imposters
in the temple written by a Stanford
professor Impostors in the temple
yeah so so
these are systems problems right because everything
is intertwined and you start pulling on
something is what seems to be a simple problem
is attached to a fifty thousand ton weight
that some other bureaucracy that's
interested in some other things so I'm not saying any
of this is easy and the
simplest thing to do is to stand up here and complain about it
but I believe
the the simplest way out of these
things is just take
care of the kids that are in high school
as best as possible but take this
not this 83 years to the end of the century seriously
the kids born this year we got five
figure out what they should be really doing in first grade and
that is what educators should absolutely be spending
their time in you just do a year a
grade a year and
of course it's going to be difficult and
because they're ever it's against
almost everybody's killing of already
being in a pretty good place I
spent years trying to talk
the NCTM National Council teacher of mathematics
into the simplest idea
which is combining math and science hours and
Cal born in so you've got a two-hour thing everyday
and you could teach math and science together
as aspects of each other no way
they had their territory
nailed out there I spent years in Sacramento
trying to trying to make something happen there
so now
it's difficult the cool thing
about being a teacher even though
it's it's
you're not supported the way you should be
but the cool thing about being a teacher is you're
in there and you've got the class there and
until like bring the thought police in
on you which could could
happen right but it totally brings la police on in
you've done your homework on the subjects you
want to teach them you can make an enormous difference then
nobody can wipe out that to me is the
that's the big message the people really
believe in this stuff are doing it in spite
of the bullshit and the
only thing that counts is just changing
a child's mind whenever you can whenever you can get them to
see that shadow of the compass instead of the compass
you've done your job so that's a
good time to quit right okay thank you so
