The Jordan B. Peterson Podcast - 318. Autism, Academics, and Animals | Dr. Temple Grandin
Episode Date: December 30, 2022Dr. Peterson's extensive catalog is available now on DailyWire+: https://utm.io/ueSXh Dr Jordan B Peterson and Temple Grandin discuss the pros and cons of visual and verbal thinking, as well as categ...orization, animal welfare, targeted activism, and the importance of hands-on learning opportunities. Temple Grandin is a Professor of Animal Science at Colorado State University. Facilities she has designed for handling livestock are used by companies all around the world. Her work has also been instrumental in implementing animal welfare auditing programs, now used by McDonalds, Wendy’s, Whole Foods, and many other major corporations. Temple has appeared on numerous shows across platforms, such as 20/20, Larry King Live, and Prime Time. Grandin is an accomplished author, with books such as Thinking in Pictures, Livestock Handling and Transport, and The Autistic Brain. A few of her other publications, Animals in Translation, as well as Visual Thinking, have even made it to the New York Times Bestseller List. In 2017, Grandin was inducted into the National Women's Hall of Fame, and in 2022 she was honored once again as a Colorado State Distinguished Professor.  - Sponsors - Black Rifle Coffee: Get 10% off your first order or Coffee Club subscription with code JORDAN: https://www.blackriflecoffee.com/ Exodus90: Is it time for your Exodus? Find resources to prepare at https://exodus90.com/jordan.  - Links - For Temple Grandin Visual Thinking (Book): https://www.amazon.com/Visual-Thinking-Pictures-Patterns-Abstractions/dp/0593418360 Grandin on Twitter: https://twitter.com/drtemplegrandin Grandin’s website: https://www.templegrandin.com/  - Chapters - (0:00) Coming up(1:00) Intro(3:00) Visual thinking and categorization(6:32) Thinking in words, comparative invention(8:50) Associative thinking, dreams(12:00) Thought process(13:00) Autism, things out of place(16:40) Skill loss, screened out(20:00) Two types of visual thinking(24:50) Skillsets geared toward visual thinkers(26:00) Grandin demonstrates associative thinking(28:15) Dreams and association webs(30:50) Cohen, shop taken out of schools(33:45) Virtualization, exposure learning(36:30) Removed from the practical(38:00) Citations, proof(41:30) Recommendations for visual thinkers(46:23) Working in tandem(47:50) Broad and pointed design(55:40) Gap between the practical and abstract(59:30) Competition, neuro diversity(1:02:00) Privileging of the semantic(1:04:00) Vintage textbooks, object visualization(1:07:00) Mechanics are not being replenished(1:08:30) Fragility of our power grid(1:10:40) Behavior of cows, follow the leader(1:16:45) Stopping cattle, novel attractors(1:18:50) Voluntary exposure(1:23:55) Humane slaughter, distress(1:27:00) How the plants work(1:28:20) Grandin on her early career(1:33:35) Animal welfare, targeted activism(1:36:40) Why cattle?(1:38:34) Facing fear and backdoors  // SUPPORT THIS CHANNEL //Newsletter: https://mailchi.mp/jordanbpeterson.com/youtubesignupDonations: https://jordanbpeterson.com/donate // COURSES //Discovering Personality: https://jordanbpeterson.com/personalitySelf Authoring Suite: https://selfauthoring.comUnderstand Myself (personality test): https://understandmyself.com // BOOKS //Beyond Order: 12 More Rules for Life: https://jordanbpeterson.com/Beyond-Order12 Rules for Life: An Antidote to Chaos: https://jordanbpeterson.com/12-rules-for-lifeMaps of Meaning: The Architecture of Belief: https://jordanbpeterson.com/maps-of-meaning // LINKS //Website: https://jordanbpeterson.comEvents: https://jordanbpeterson.com/eventsBlog: https://jordanbpeterson.com/blogPodcast: https://jordanbpeterson.com/podcast // SOCIAL //Twitter: https://twitter.com/jordanbpetersonInstagram: https://instagram.com/jordan.b.petersonFacebook: https://facebook.com/drjordanpetersonTelegram: https://t.me/DrJordanPetersonAll socials: https://linktr.ee/drjordanbpeterson #JordanPeterson #JordanBPeterson #DrJordanPeterson #DrJordanBPeterson #DailyWirePlus #csu #coloradostateuniversity #autism #livestock #animalcruelty #motivation #visuallearning #dreams #education
Transcript
Discussion (0)
Hello everyone, I'm usually excited to have whoever I'm talking to that day on my show
because I pick people I'm excited about talking to you, but I'm particularly excited about my guest today.
Dr. Temple Grandin revolutionized the animal handling industry over the last 40 years and has done more for animal welfare in a practical sense than anybody that I know of.
And perhaps anybody on the planet, I think you could make a case for that. She's a remarkable person. I saw her first in Tucson, Arizona, I'll talk about that a little bit in our interview. She gave
one of the most compelling presentations I'd ever seen in an academic setting at a conference on
consciousness. And saw that about 15 years ago. And ever since then, I'd really been wanting to
meet her. And I got to do that today. So that's so exciting. So I'll just give you a brief bio
and we'll pop into the interview.
Dr. Temple Grandin is a professor of animal sciences
at Colorado State University.
Facilities she has designed for handling livestock
are used by companies all around the world.
Her work has been instrumental in implementing
animal welfare auditing programs,
now used by McDonald's, Wendy's, Whole Foods,
and many other major corporations.
She has appeared on numerous shows across platforms, such as 2020 Larry King Live and Primetime.
Dr. Grandin is also an accomplished author with books such as Thinking and Pictures,
Livestock Handling in Transport, and The Autistic Brain.
A few of her other publications, animals in translation, as well as visual thinking,
have even made it to the New York Times bestseller list.
In 2017, Dr. Granted was inducted
into the National Women's Hall of Fame.
And in 2022, she was honored once again
as a Colorado state distinguished professor.
We're gonna walk through a book today and
we're going to learn what she has to say now about thinking. Let's start with visual thinking
in language. So do you want to tell people about your realization and about different thought patterns?
When I was in my 20s, I thought everybody thought in pictures
the way I thought.
I didn't know that other people thought in words
until I was in my late 30s.
Now you've already mentioned how do I categorize?
Well, explain as a child how I learned to categorize,
categorizing with individual pictures.
So as a very young child.
I categorized cats, dogs, and horses by size,
because in our neighborhood at that time,
there were no cattle, and there were no small dogs.
Then a doxant came into my neighborhood,
and she's the same size as a cat.
And I remember looking at the doxant.
She was a black doxckson and trying to figure out,
now what features does she share with the dog?
She barks.
Her nose shape is the same as a dog,
and she smells like a dog.
So I had to take other sensory-based things,
like smell and what the dog sounded like to put the docks
in the dog category. So the way I form categories is I have to have a bunch of
information. Let's take the cat category and you look at a leopard's face, lion's
face, and even a house cat's face, there's similarities.
And they also smell all the same, too. If you go to the zoo, you can smell how they are different.
So the first step for abstract thinking
is put making categories.
So when I finally figured out that other people
did not think in pictures,
if I ask most people visualize your own home, I think it out that other people did not think in pictures.
If I ask most people, visualize your own home, your dog, or your car, you will do it because
you're so familiar with that.
But one time at a autism conference when I was in my late 30s, I asked a speech therapist
think about a church staple, and I was shocked that all the only image he saw was a very vague two lines like
this where I see specific churches. They come up like a series of low, well, back then 35
millimeter slides. Now, the PowerPoint slides. And then I can start as I see more and more of these
churches, I can put them into New England type category, stone cathedral
type. Looks like a warehouse and it has a little plastic steeper type. I can make finer
categories as I get more and more specific images. It's bottom up thinking, and I learned
that that's exactly how an artificial intelligence program diagnosis melanoma cancer. It's given a training set of 2000 melanomas
and another training set of every kind of skin rash and mosquito bite and
infected whatever and then it learns to categorize melanoma from non-
melanoma and died. That was very insightful to me when I learned that that's
how the simple type of artificial intelligence programs work.
I'm diagnosing something like melanoma.
So, let me ask you, when I'm thinking something through, now I to think in pictures. But I would say 90% of the time,
my proclivity is to think in words.
And I would say in part,
that's because my word thinking is so dominant,
it just suppresses the image thinking.
And so a lot of my thinking,
I would also say, takes the form of something like internal
argumentation.
So I'll ask myself a question, I'll think up an answer in words, and then I'll think
up a bunch of reasons why that answer isn't sufficient, and then I'll conduct an internal
argument.
And that's occupying me continually, like 16 hours a day, non-stop.
And it's been like that ever since I was two years old,
except for those times, let's say.
So, yeah, so how do you conduct internal arguments?
Or like what accounts for the...
So part of the creativity in my thinking is the outcome of these arguments.
But you're thinking in arguments, but you're
thinking in pictures, so you're not having internal arguments.
Nope.
What's the stream of your thought like?
Well, when it comes to things like designing equipment, I often will kind of, a lot of
equipment design, someone gets an idea from something else.
And one of my other books I wrote about the inventor of Velcro.
And he saw how Birdox stuck on his clothes.
You know, cocklebirds on those kind of things stuck on his clothes.
And that's where he got the idea for making Velcro.
That would be visual thinking.
They Birdox and Velcro, they've got similarities on how they stick together. In designing equipment,
I can just see how it operates. I worked with welders that had 20 patents each that barely
graduated from high school, but they could build any kind of a machine and invent industrial machinery.
They just see it in their head. Right now, will you see, okay, so I read Nikolai Tesla's biography a long while back, and
it was extremely interesting, and he claimed, and I have no reason to disbelieve him, that
entire inventions, machines would pop into the theater of his imagination, detailed out to the point
where he knew the angles on the screws that held the metal together, and he would try
to write them down in something, draw them out, in a something approximating something
that would be, you know, that you could make a blueprint out of, let's say, in that
much detail. And sometimes a new invention would pop into his head so quickly
that it would obliterate the previous one.
He had to work very quickly to keep up.
And so there's that incredible fluency in visualization.
But then, as I said, in the verbal world,
I'll think of argument and counterarguments.
When you're thinking of industrial design,
do you think of the object that you're attempting to design
and then multiple variants of it and test them against each other?
Or does it just come to you as a solution for a given problem?
It almost sort of just pops into my head.
I also see mechanical abnormalities.
I remember walking in and someone made a cardboard,
old-fashioned locomotive.
You know, the wheels have those links between them.
And I go, that's, they drew that wrong.
Wheels are not gonna turn.
You know, it was just a cartoon train for a party.
But I immediately noticed that they didn't draw it right.
The other thing is, is my thinking associative.
All right, give me a keyword.
Pretend I'm Google for images.
Not something, not something I can see in here with books and papers all around and photography
equipment and stuff all around me, but something kind of a creative key word and I'll tell you how I access my memory for that key word.
So and with regard so my wife has a very powerful visual imagination. She's able to do all sorts of
remarkable things with it. And one of the things that strikes me as highly probable is that her capacity
for visual imagery is a lot more intense than mine. Yes. And so like I was a fairly vivid
dreamer for years, especially when I was reading Carl Jung's work in graduate school. Don't
seem to dream much now or not. Well, I don't remember them much now. When I do think in pictures,
it's not as vivid as seeing the real world. It's maybe 5% of that. It's sort of, it's,
well, it just doesn't have that intensity. And you?
No, it's very, very vivid. And while I was, well, you were setting up all the camera equipment, here I found, here's
a whole bunch of papers.
More papers I found online supporting the, a lot of the things that are in the book.
I just got surfing around.
And boy, you can sometimes find some great stuff when you look at the citations.
No, but it's very, very vivid.
I know it's, it's very, very vivid. It's completely big of it.
Now when you mentioned the word imagination, I remember going to a long time ago, Disney
World, a kind of a ride that had imagination with people and the ridgables and things like
that.
You know, then I visited a studio where Disney made a whole bunch of their stuff. I'm now seeing that yes
I'm now seeing a non-disclosure agreement, so I can't tell you what I did there
and I
But I now I'm seeing a very interesting discussion. We had about
disillining things
where where you're designing things there's the decoration part of it. And then there's the mechanical part of a machine.
Of course, at a amusement park, you won't have decorations,
but you also have to mechanically work
that kind of two separate things.
So it's kind of done by two separate departments.
You also spoke in your book about your ability to see things out of place.
And so one of the things that characterizes autism is the fact that at least some autistic
people are not very happy when they walk into a room, say that they're familiar with.
And one thing is out of place.
So for example, an autistic child might walk into a dining room
and one of the chairs is tilted 45 degrees to the right or to the left
instead of being put straight in.
And what seems to happen, correct me if you feel that I'm wrong,
is that the fact that that chair is now a skew means that the entire room
is different in some important and emotionally significant way.
So there's this and response to anomaly.
I don't have that issue. That's not an issue for me.
But if there's one pixel off on an electronic sign, I will notice that.
I remember one time walking into the airport with somebody else
and the United Ticket counter sign was a whole row of television monitors and there must have
been 20 TV monitors making the word united over and over again and one of the
screens was scrambled the whole screen and I immediately saw it and I said to
the person inside me did you see that that sign was messed up? No, they did not see it.
They were right beside me when we walked in.
I immediately saw it.
Now that it upset me, no.
I just noticed that the sign was scrambled.
Right, but it didn't upset you.
No.
Yeah, so that's that interesting.
So for me, I think I can detect anomalies visually.
So for example, one of the things I learned to do when I was setting up my house and renovating
places and setting up my offices, like arranging my local environment, was to sit in the room
and become meditative in some sense.
And then to feel out what was bothering me
about the room, like what ugly feature might pop out,
what part of it needed to be attended to, right?
And I think I was tuning myself to detect what was abnormal
in relationship to the underlying aesthetic
or the pattern of the room, but that pops out for you almost instantaneously.
When for me an omelie detection is mostly verbal again, it's like all think up an argument
and then think up counter arguments and if one argument and the other don't jive if
they're contradictory, then that pops out for me.
Well, it's sort of like I fly all the time.
So, like, I know when the pilots do the checklist.
And, like, we push back and we just take too long to turn.
I'm going, uh-oh, we're going to have an air traffic control delay.
And, like, I can often predict that before they announce it.
And I also can, I'm very conscious of,
on the biggest airplane,
when they start the little general push
to push it back in the gate,
I can feel it on the biggest aircraft there is.
Great.
And I, and I,
I just want to get there.
And I'm going,
Oh, please push back.
But it's sort of like, I don't get upset about it. It's just anything that's not routine. I instantly notice it and I go, oh crap.
I see a vest that says tech ops. We may have a delayed flight. Now that brings up another
thing I want to talk about. The last month I've had okay mechanic come on, applying that twice, and both mechanics
had gray hair.
And this brings up a major issue that's in my book about skill loss, especially skill
loss with mechanical things.
I've been on a lot of questionable elevators and escalators lately that definitely needed
servicing.
And what's happening, and this is in my screened out chapter, is the kids are getting screened out
of these trades because they've taken the shop classes out of the schools 20 years ago.
And we have so many higher math requirements that you don't need for something like fixing elevators,
that the kids are playing video games and the basement on an autism diagnosis
instead of fixing elevators.
There's a relationship here
between what goes on with industrial things
and what's going on at school,
which is a major, major thing
that I'm interested in talking about.
Yeah, so let's talk about that a little bit.
It's, that's one of the things that popped out for me from your book.
So I was trying to think that through.
So you make the claim as you just laid out that our education system
and maybe our entire culture as it's hypothetically de-industrializing
is actually working against the best interests of those who think mechanically,
those who think in pictures, and those who can do hands-on work.
On his paper, I just got off of Google Scholar on visual objectability,
a new dimension of nonverbal intelligence,
and what a lot of educators don't understand is that object visualization,
especially on solving mechanical problems,
it is a different way of thinking. I worked with people that barely graduated from high school,
stutterers. They'd be labeled autistic today. They'd be in special ed. But they had big metal
working shops and 20 patents each for mechanically complicated equipment that they are selling around the world.
And this is something that educators just don't get it.
And the reason why I wrote this book, I'll tell you what was a reason.
In 2019, just before COVID shut everything down, I went to four places and I realized the
magnitude of the
skill loss. The first one was a pork processing plant where most of the equipment came from
Holland. I went to another pork processing plant, equipment coming from Holland. Then
I went to a poultry processing plant where all of the specialized equipment came from
Holland, you know, hundred shipping containers.
And then I went to the Steve Jobs Theater and the structural glass walls are
from Italy and Germany.
Then after reading more stuff, I found out that the state of the art,
electronic chip making machine comes from Holland.
And that goes back to their educational system.
They don't stick their nose up at the high end skilled trades and look at it sort of like a lesser farm intelligence.
When the kids get to about ninth grade, they can go university route or they can go tech route.
And I want to emphasize high end skilled trades where you're really using that visual thinking for mechanical devices?
So I was trying to think through why this might be happening. So let me offer some hypotheses to you
and you tell me what you think about this. So first of all, we have learned and you draw on Simon
Baron, Cohen's work in your book. We have learned that there is a difference
and we could try to map this onto verbal thinking
versus images think thinking.
Simon Baron Cohen talked about systemizing
versus empathizing and he considers that
something akin to the continuum
between autistic thinking and normal thinking.
So the autistic types are more systematizing and my suspicions are there also the ones
who are more likely to think in images in the manner that you described.
Now we have interest in thinking in images.
And there's a nice paper that just came out relatively
recently, seeing and thinking in pictures, the review of visual
information processing, uh, that came out in 2018, like to keep
my stuff up to date. Now, I think in photo-realistic pictures,
were the more mathematical type of thinking, things in patterns. See,
in your brain, you've got circuits for what is something?
Okay, so I see a dog, I'm gonna go, yeah, that's a dog.
Or I've got some China ceramic cattle
on my coffee table here.
Okay, and I just look at the animals and name them.
Then the visual spatial is where is something?
Where are you located in space?
There are actually two different kinds of visualization.
I have a whole chapter in visual thinking book about this
and research to back this up.
Now the visual spatial type pattern thinking,
or sort of where is something in space.
Those kids do well in math.
So they're going to STEM right.
But let me tell you what's going on out in the food processing plants.
The people I worked with, and the big steel shops now that a lot of us closed down.
We are paying the price now for taking out those shop classes, and designed mechanically
clever equipment.
The people I worked with in May,
we never worked on boilers of refrigeration,
we don't understand that stuff.
That requires a lot more mathematical thinking
or the load on the roof so that
faculty doesn't fall down if we get two feet of snow.
You see, then I have seen this division of engineering
labored every single meat company I have worked with
so are all the same.
So do you think that's a matter of,
like let's say something approximating focal depth?
So is it possible that the first kind of people
that you talked about are dealing at the object level itself,
so they're dealing, say, with a boiler
or with a particular piece of equipment,
whereas the other types are dealing with the relationship between pieces of equipment.
No, no, no, no, it's just a...
No, you don't think that's it?
No, I think it's just real simple.
It's a... you just see the objects.
And then after you work, you see, an object visualizer gets better and better at designing mechanical equipment.
The more things you go out and see, like When I started working my designing cattle handling facilities, I went to every feed yard
in Arizona and I worked cattle.
And I go, this kind of a design doesn't work.
This worked.
Then I took all the good bits and like recombined them.
It's bottom up thinking, the more stuff I get exposed to, okay, whether it's cattle handling
facility, or maybe I look at how water flows through something.
And then you watch how cattle move.
I'd like to look at drone footage.
And a lot of that resembles water flow.
And the visual spatial, they see patterns.
It's actually very different.
And what we're losing is the object visualizer.
On that person that can just you see I'm very aware of things like I go in an elevator now that hasn't been serviced in it scraping in the shaft you better believe it I hear it and I go they haven't serviced that elevator.
And I was at a fancy hotel recently, and the bell hop goes,
oh, it's skipped that floor,
we have to get that floor on the way down.
Yeah, real nice hotel, Major City.
Right, right.
Okay, so let me, I don't quite understand that distinction yet.
So I'm going to, I'm going to push a little bit more on that.
So on the visual side,
you have the visual spatial types,
if I'm remembering this correctly, and that's the category that you fall into. On the visual side, you have the visual spatial types,
if I'm remembering this correctly,
and that's the category that you fall into.
And then you have people who are,
what are they, higher up on the abstraction chain
in some sense, the ones who can think more mathematically?
No, but basically, object visualizers,
I can tell you this from experience,
we're good at mechanical devices, aren't photography.
I have talked to many, many photographers because
I do a lot of interviews, find out they're dyslexic, they're about flunked out of school, and
fortunately somebody introduced them to photography. And the other thing that my kind of mind's
good at is animals. Then you're visual spatial, mathematics, algebra. I can't do algebra. There's
nothing that visualized. Mathematics, calculus, I took a computer programming
course when I was in college.
I couldn't do it, I had to drop it.
I was exposed to the same exact computer
that Bill Gates had.
And he could do it, and I had to drop the class.
These are the things that the more mathematical pattern
thinking mind is good at.
And some of these really smart kids they can just look at algebra formulas
and just see it. They don't have to do it step by step. They just see it.
And that's how they think. And then the teachers try to make them do it step by step.
That gets the kids frustrated. They don't think the same way.
Right. Right.
And my thinking is also associative. I tend to jump around.
But there's a logic to the association.
And I think the best way to illustrate that associative kind of thinking is give me a single
keyword like I'm Google for images and think up a creative keyword.
And I will tell you exactly how my mind associates, associates, and how my mind can get off the
subject. But there is a logic
to the getting off of the subject.
So, give me a keyword, a single keyword.
Okay, how about rose?
Okay, I'm seeing rose bushes that we had in our backyard when I was a child, and we
had a lot of thorns on them.
And we also like dig around in the grass that was back there.
So now I'm seeing the grass behind our house.
We used to go play in that and catch some insects sometimes.
Okay. Now you can see how it's jumping around.
I don't have that big, I don't have that big,
a visual library of roses.
So then I tend to then go to something else.
But they're like how about cows. What?
cows are right now. I'm seeing like 10 cow statues right here in front of me.
And so obviously those are coming up in my mind I just recently, I tend to bring up recent memories.
I visited with a black Angus bull.
It was a pet and he wasn't very happy with us because we didn't bring him any carrots.
So my friend gave him one of those disgusting soy protein bars and he goes,
I'm not going to eat that.
I wouldn't eat it.
No, I must have tried to feed it to him.
And he was annoyed because we didn't bring him any carrots.
Okay, then I'm getting, now I'm on the, now I've got the carrot word in my head.
And when I was in fourth grade, I used my singer, so handy, to sew green
crepe paper so students could be carrots.
And I made the green carrot tops out of green crepe paper.
So that's how I got to have the carrot. Interesting.
So talking to you, talking to you that way reminds me very much of what used to happen in
my therapy sessions when I was helping people interpret their dreams.
And so dreams have the same quality of thought that your thought had when you just put it on display there.
So because the dream tends to be an intermingling, so imagine there's a center category,
and the nature of the category is somewhat unclear.
Maybe that's partly what the dream is trying to puzzle out,
but what you get is a web of associations, some of which are autobiographical, that are
sort of circulating around a main theme.
And partly what you do when you analyze a dream is you walk through all the associated
images.
You also ask the person to let their mind loose, to generate more associations, and then
you try to use the associational web to triangulate on the central theme and to haul out the gist.
And the gist of that array of images would
be something like the interpretation of
the dream. If you get it right, then it
snaps into people, they think, oh yes,
that's definitely what that was about.
But the dream is attempting to put
something together, you know, that has a
central kind of structure.
No, no, no, no.
Or sensory things because, I have some balance issues.
So I often get dreams where I'm like, riding a bike down a hill, it's super steep like that.
I wish I wasn't doing that.
And I know that that has to do with the fact that I have balance issues.
I don't think it means anything.
But I'm always up on some high place that I wish I wasn't up on, and I've got to try
to walk down it.
And then I have other dreams where I can see it might have some meaning and other times
that where it doesn't.
But if I'm thinking, the other thing with my thinking, when I'm working on design work,
I can control the associations.
I can control them.
I've had before, you know, there's now 3D simulations, okay, let's say the company that's
building us this plant wants to show off how the equipment works.
They can do a 3D simulation showing how the equipment works.
I can remember sitting in a conference room when I'm trying to discuss how to do some conveyors
and the other guys there are coming up with ideas
for the conveyors and I go,
no, no, if you do that, you're gonna yank the rails
out of the ceiling.
Oh, no, no, no, that won't work.
They were almost using my mind like a 3D CAD program
that was animated.
And I could test run in my head on these different conveyors
So so let's go back to to the issue of say taking shop class out of school so
Baron Cohen talked about
Systematizers versus empathizers. Yeah, but what Baron Cohen said case. Yeah, that's not the object visualizers
He was looking more at the
He left the object visualizers. He was looking more at the mathematical visual space and pattern thinkers.
I agree with them about systematizing and verbal, but he didn't differentiate the systematizers
properly.
That should be more than a decision.
Yeah, he did.
Systematizers would have two categories, the object visualizer and the visual
spatial and a big mistake in a lot of perceptual studies is that they're not
differentiating them. And some people on there's some verbal people in psychology
that don't want to believe this stuff exists. Just while you were setting up the
cameras, I downloaded six new abstracts that aren't even in my book on this, that show that they
are different.
Right, okay.
Got it right here on my lap.
So Cohen also talks about gender differences in relationship to this continuous.
So we can break the continuum to two parts on the one end.
And it is the case that autism tends to be preferentially
a male disorder, although there are females as well.
But so that's systematizing mode of thinking
that you've differentiated into the two categories.
Also tends to be gender stereotype
to some degree at a moment.
I avoid that issue as controversial
because right now I'm interested in one thing at
the age of 75 of helping the students who think differently get into really good careers
where they can have satisfying lives, and I avoid the controversial stuff.
Yeah, well, I'm not so much interested in the controversy.
I'm interested in trying to address the issue of why
shop courses, for example, have been taken out of schools.
Now, we do know that the schools are predominantly run by women
and women are more likely to be empathized.
No, I think it's less like this is the potential.
So I'm wondering if there's a gender issue going on there
and a prejudice against a certain way of thinking.
Okay. What's that?
I think that one of the reasons they took out the shop classes, they
kind of just go, everybody's going to go to the university route and cost. Right. Good
shop classes cost a lot of money. Now people are starting to put shop classes back in.
And you know what they're finding? They can't find anybody to teach the shop classes.
I just heard about a brand new beautiful welding shop built here in Colorado at a community college
And they can't find somebody to teach it even after they drop the university requirement and I can tell you right now
We need people that do these things before the power grid and the water systems fall apart. I'll tell you that stuff. I care right
Right, right. Yeah, well, it's okay.
So you, well, virtualize it.
Now, do you think virtualization has also played a role in this?
I mean, the system that I'm trying to say.
You can't, I can't.
Some of the 3D drawings I see are drawn.
And that's not going to fix some of the serious problems we got with infrastructure
right now.
And you need both kinds of thinkers. Like one of the things I've got in my book is
where Bridge fell down in Minneapolis.
And the workers were complaining.
They were worried that when they were working on this bridge, it was going to collapse.
Well, I looked up that bridge collapse and I saw all the twisted metal and I took one
look at that.
Now what?
It's too light. it's too cheap.
That was just from looking at the pictures, then I found the engineering report on why
that bridge fell down and they cheated on the gusset plates that hold the beams together
and they were way thinner than the spec.
But I had already looked at the pictures and said that bridge is too light, it's
shape before I read any engineering report.
So how was it in your life that you attained the practical knowledge necessary to facilitate
your thinking?
So we're talking about how you got to take in the vision.
I'll tell you how you do it. It's real simple. You got to get out and experience all kinds
of stuff because the more information you put in the database, the better you get. And
going back to teaching a computer, how to diagnose melanoma, you had to give it like a
couple of thousand melanoma examples and a couple of thousand mosquito bites infected
boils and everything else examples. In other words, the more, as I got older and I got more and more information in my database,
I could think better and better and better and I could make smaller categories of things.
Now, a lot of the people that I worked with in construction that build equipment farming,
that's used in every large beef plant now in the US. Some of them would definitely be autistic.
One of them started out working on cars.
Another one took a single welding class, and now he's selling mechanical equipment all
over the world, started with a tiny shop that then grew into a big shop.
And what's happening now is the little shops are not forming.
And that's why we're importing all this equipment from Holland and Italy.
Because when you look at their educational system and I looked it up again recently online.
Italy actually has three routes.
University Route, Tech Route, Mechanical, and Art Route.
And they're like for their fashion industry,
and the Holland and Netherlands
you can go either university route or tech route.
And that's why they're making
the state of the art ship making machine
that we don't make.
Right.
I'm not talking about tech, I'm talking about electronic chips.
Right. I wonder if this is also a consequence of people
increasingly moving away from farms.
No, because when you're on a farm,
you'd have to do a lot of hands-on stuff.
You have to do a lot of fence repair.
You've got to take care of your own machinery.
And as you move into the urban environment,
everything in some sense, even in the real world,
is virtualized because you can always call on other people
to do the day-to-day things that you need
to keep the infrastructure.
I agree a lot of, you know, kids are growing up today totally removed from the practical.
And one of the things I talk about in the visual thinking book is I talked to a doctor and he told me he had trouble training interns to sew up cuts because the interns
had never used scissors as a young child. I had a student in my class that had never used
a tape measure to measure anything. And they're totally removed from the world of practical
where those kids that came off the farms, yes, they had to figure out how to fix things,
absolutely. But I think what's happening now
in the schools as things are getting so verbal,
and they're going absolutely crazy
on math requirements.
Because I know people with 20 patents,
and they could basically do sixth grade arithmetic
that I could do, because I can relate that back
to real things.
And things like,
do you know of any research pertaining on how because I can relate that back to real things. And things like... Do you...
Do you know of any research pertaining on how the more...
the people who visualize objects might be assessed for their ability?
Yes, because...
There's a whole chapter in here.
There's a whole chapter in here.
And I've never...
I've pronounced their names right.
Blank and Kovah, and I never can say the names correctly.
But I have a whole list of references in there
where the difference between the object visualizer
and the visual spatial is being assessed.
And there's a whole bunch of references on that.
Now, I have to look these names up
because I can't pronounce them correctly.
Let me find a reference list here for chapter 2.
Okay, it's Blas Hen Kova.
I've got one, two, three references in here from Blas Hen Kova on types of creativity. creativity and then the other big reference I have lots of references would be
Co's have Nacoth if she's got trade-offs object versus spatial visualization
reviewing the visual verbal dimension evidence for two types of visualizers
that's another paper spatial versus object visualization,
a new characterization of visual cognitive style.
That's three papers right there,
Cohesne-Akoth, that are in my reference list.
And I've got a lot of references
where they were actual tests were done.
When I go through the citation list,
I just went in and we're working on the children's edition
of the book right now.
And one of the copy editors had a query about a reference.
And my head looked that up.
And then I decided to just type in object visualizer,
visual spatial into Google Scholar again,
find the same old papers, and then I found some citations.
It's kind of a cool paper here in a journal cognition.
It's an old paper actually, visual objectability,
a new dimension of nonverbal intelligence.
I know for working in factories, I spent 25 years
in heavy construction, and that is something that,
I don't think many teachers have done that.
Seeing how these guys think, big complicated cargill plans,
IBP plans, which are now Tyson,
Montfort plans.
That company is now JBS.
Figuring out complicated things with equipment.
It's a different type of intelligence.
And I think it's, when I worked on the book with Betsy Lerner, my super verbal co-writer
who helped me organize things.
And she had someone come in to fix a bunch of stuff in her house.
And after we had discussed this, Betsy was telling me, well, I watched how he figured
out how to fix the stones on the chimney. I had never really thought about it before, but she'd
watched how he did things. And then she started to understand there's a form of intelligence
there. That's absolutely not verbal. When she watched a person, she hired to fix stuff
in her house.
Right, right. Yeah, well, you can imagine something,
and this did pop into my mind visually.
Can imagine somebody who's trying to put together
a stone chimney has to rotate stone.
Exactly.
To make sure that they're going, like a Tetris game,
that's a good way of thinking about it.
I was thinking then again,
because I'm thinking in images now that we're talking,
was thinking about my young grandson,
he was, he's only two years old.
He had his legos played, lace laid out in front of him.
And when I was a kid, I played a lot with Legos
and I played a fair bit with this mechanoset
that was like a junior engineering set.
And it was certainly the case that working with Legos
was nonverbal because you're rotating shapes in space
and having them fit into one another towards some design end.
And that's a nice kind of hands-on learning and exposure to different mechanical principles.
And so, do you have recommendations for people who want to help their children train their visual spatial
and object visualization abilities?
Let's get them out building things.
The big mistake I see with a lot of kids is they're super good with legos.
They don't think to introduce tools.
I was using tools by myself, right?
I was not using a saw, but I was using hammer screwdriver employers.
I was taught how to use it safely.
I've got another book of children's projects called Calling All Mines,
where I describe bird kites that I spent hours with tinkering to get them to work,
to agree with parachutes to get them to open up more easily.
Kids today are totally separated in the world of physical things.
They're not getting out and observing
stuff out in nature. This is part of the problem. I just went to a veterinary school where the
students are so far removed from practical things that they give them dexterity skills and
surgical skills. They have these plastic tote boxes and they put
children's puzzles inside them and they've got to just reach in and by feel but these
children's puzzles together because when they were in kindergarten they never did this.
Right, right, right. Yeah, well, my parents told me that when I was four my favorite toy
was a screwdriver and that I used to take all the cupboard doors off
the cupboards in the kitchens. And so I was introduced to tools at a very early age and
that there's a real practical utility in that too because now if I visualize a project in my house
shelving or something like that or any construction project of any sort, well I can visualize the
array of tools that's necessary to make that come about.
And then I have the tools at hand,
and I know how to use them.
And that is a, well, it's also,
I really find that kind of work calming and grossing.
Well, the problem is, is we got kids growing up today,
totally removed from the world of
the practical.
They don't use tools, they don't use scissors.
I had a student in a class who had never used a ruler or tape measure to measure anything
ever.
I think that's a problem.
Because if you haven't done practical things, then you don't understand how to fix things.
Okay, like two years ago, the horrible mess with a power, you know, like a bunch of Because if you haven't done practical things, then you don't understand how to fix things.
Okay, like two years ago, the horrible mess with a power, like a bunch of different power
stations froze.
Well, I never heard so much abstract, gobbledy-gook about that.
Because the way I would work on fixing it would be, all right, let's look at each power
station, what piece of equipment actually froze?
I never saw anything written in the press that describe, okay, what frozen this plan?
What frozen this plant?
Because my inclination would be to kind of rank them on, okay, a turbine haul.
It froze. I can build a building over it. That's an easy one.
You know, a whole bunch of gas wells froze. That's going to be like really difficult to fix.
But you see, nothing's abstract because okay, if I'm going to try to figure out how to fix it,
I don't really want to argue who owns them. I'm not interested in the politics. I would just rank
the power stations on expansiveness and difficulty to winnerize and say exactly what piece of equipment
throws and you know how I can find out. You let me loosen there away from the managers. I'll find
the maintenance shop. They'll show me everything.
And I know enough about equipment that they can't be S-Main.
Right, so maybe part of the advantage to that
more visual form of processing is also its association
with that kind of practical particularization.
That's right. That's right.
On the other hand, I have no idea how to balance a power grid.
That's a job for the mathematicians.
You see, this is where we need to work together.
In a complementary way,
and I tell people in big corporations that I've done a lot of talks for businesses,
your first step is that you've got
to recognize different kinds of thinking exists.
And let's take another example.
Recently I visited two really nice derries up
and put back Canada that have the robotic milking machines
where the cow can go in.
She decides one she wants to get milking at fed.
And both derries had actually made some good mechanical modifications on that equipment,
which the equipment company finally adopted.
But one of the Derry producers said to me,
I stop at the computer stuff.
I don't mess with the program.
That's somebody else's job to work on the software.
But the mechanical parts of the device,
they figured out ways to improve it.
Yeah, it's like a hierarchy. Man, you can imagine a hierarchy of generalization
with the highest resolution, lowest level being the particulars of a given machine.
Then you can imagine people, but specialized to operate at different levels of the hierarchy. Maybe the verbal
types are operating at the high level. Well, that's right. They are. But they lose that
particularization. That's right. That's basically right. Because the verbalizer tends to over
generalize. One of the papers that I reviewed in my book on Visual Thinking was an interesting
study where high school students that came life for school specializing in the arts,
another school specializing in the sciences, and another one especially in the humanities,
which would be more verbal on those teams of students and their assignment was to create
a new planet. So the art students heavily visualizing they made a planet with crystals on it,
another one made a skyscraper planet.
And then the more mathematical science students just painted around,
made around the ball and described the gravity and the atmosphere,
you know, kind of boring pictures.
And the verbal thinkers started right it down.
And then they go, oh, wait a minute, we're supposed to draw the planet.
So they made kind of splotchy stuff on it.
But the thing that was interesting is that the art minds,
more my kind of mind and the mathematical minds,
they had big planning sessions on how to design their planet
where the verbal thinkers, they didn't do any planning.
You see, this is the problem.
The verbal thinkers get big broad concepts or something we need to do.
Right. But how do you actually implement those concepts? Yeah, right. There's no detail there. Now in food safety
We have a thing that I really like. It's called a hazard analysis critical control points. So let's say I'm out there in a sea of
Things I can do.
Well, I can't do all that stuff.
You see now the critical control point,
let's say in food safety, in a food factory,
I can't measure microbes and bacteria on everything in that plant.
I have to pick out the places where I'm most likely to have contamination.
That would be the critical control points. And one of them is
doorknobs. Now that's why some places, food factories have automatic doors because that gets rid
of touching the door. Yeah well one of one of the things that I always found a relief in working
with engineers is that they were good.
And I can see it in the terms that you're describing.
They were very good at rank ordering practical priorities, right?
And that seems to be part of this particularization.
So I have this company, it's a software company that sells personality tests and writing
programs for people to help them plan their lives and my business partners and engineer.
And although he's also very intelligent verbally, he's more intelligent non-verbaly.
And he knows the systems right from the code upward at every level of their machine instantiation.
And so the huge advantage to that is that,
if anything ever goes wrong,
he knows exactly what goes wrong
and he knows exactly how to fix it.
It's particularized down to the point
where it that makes action possible, eh?
And that's part of the problem
with the verbal abstraction is that it makes sense conceptually,
but that doesn't mean that it's detailed
to the point where it's actually implementable.
And then it's like a pseudo knowledge, right?
Because it sounds like you've got the picture right.
But when you actually try to implement it, you find out that it's really a hollow shell
of conceptualizing it.
Well, I kind of look at, like, this is why when I learned about the food safety concept
of hazard analysis,
critical control points or let's just call it critical control points.
So I've got a big sea of stuff out there.
What's the really important thing?
Okay, now I only think it's a specific example.
So let's take frozen Texas power stations.
The critical control point is and I want it like in two sentences, what
piece of equipment froze? And then you can very easily figure out the ones that will be
easy to win a rise. And I've actually talked to somebody who installs gas wells. And I
only cost $5,000 to win a rise of well when you build it, directrofits a complete mess. He also said, you have to have someone
who knows how to turn the valves.
He said, that's me.
I call him the guy in the pickup.
And that person in that pickup truck
is not getting enough credit.
He knows how to turn those valves.
Right.
Yeah, so if you conceptualize that verbally,
you end up saying something like a bad winter
storm took out the Texas power grid.
And that sort of sounds like you said something, but it's nothing like saying, well, the grid
is made out of 200 different industrial assemblies.
Each of those is made up of a variety of parts that's differentially susceptible to
winter. All right, well, that's differentially susceptible to winter.
All right, well, that's still a double-de-gook
because, first of all, it wouldn't have 200 separate power
stations.
It's more like 10, something like that.
And I would just let's, well, write down the name of the station
because I don't really care who owns it.
And what we used to do with meat packing plants
when we were doing welfare audits,
is we'd always call them by their town names,
because you're auditing that particular plant.
And I'd say, well, this power station
had frozen turbine hall, that's an easy one to fix.
Then there was a coal fired that froze,
well, they freeze up the, where you have a coal bump sand.
That's probably fairly easy to fix.
And if 50 gas wells froze up the feet of plant,
that's gonna be a mess to fix.
But you see, as I talk about these things, I see it.
And I happen to know what some of the equipment looks like.
You see that also makes me a better troubleshooter.
If I know what stuff looks like, you see this is where you've got to put things
in my database. But I work 25 years out in factories on heavy construction stuff. So I know
what a lot of stuff looks like.
Right. So it means in some sense that to solve the problem is you take the verbal representation. So the verbal representation is a storm took out the Texas power grid and then you say,
well, there's 10 key components to the power grid. So that differentiates that.
And then you say, in each of the 10 systems, there are critically vulnerable points that are
specifically sensitive to cold weather.
We need to differentiate and find out what those key ones are.
Then we have to differentiate that further.
You see, now, okay, now when I first started my work,
there was no Google Earth.
Well, the first thing I do,
probably Google Earth and Street View, the power stations.
And the other thing I've learned,
if I wanna get accurate information,
I don't, you don't talk to the managers.
You got to get down in the shop.
And, and then the shop guys have to be not worried about getting fired.
That's another nasty issue that I'm going to have to deal with.
But, you know, let's say I get three shop guys together and we have, okay,
my industry say when we get rid of all the suits, you know,
that's going to be the manager of verbal thinkers. They won't talk in front of suits. They're
afraid they're going to lose their jobs. You know, and this is something I know from all
the years I've worked in this stuff. And then they'll take you out there and show you what
froze. And then, oh, there's creative things. I've talked to a guy who worked at a power plant.
And there was this one sensor very important electronic sensor and it
Get cold and when they got cold he put plastic garbage bags over it and
I'm going right now. I think we need to have something a little more permanent to keep that sensor warm than black plastic garbage bags. That's why I told them
than black plastic garbage bags. That's why I told them.
Yeah, so that issue that the guys with the hands-on knowledge
have to worry about being fired is interesting too,
because it seems like, so they have this extremely detailed
knowledge that's practical about how these systems operate.
And what happens is if they bring that knowledge
up the abstraction hierarchy, what they're doing in some sense
is pointing out the manner in which they're superior,
they're hypothetical supporters.
Well, that's the problem.
The detail knowledge.
A very big problem I've had is they're worried about losing
their jobs.
Yeah.
And but you really want to solve the problem,
they need to be able to talk to you freely,
because they're the ones who tell you exactly what froze.
Right, well, the question is,
why would their attempts to bring their practical reality
to bear as they move information up,
information hierarchy.
Why would that threaten people to the point where they would be intimidated in
relationship to their job? Why is there this gap, the psychological gap between
the practical and the abstract? And you think that the managers would be calling
on these people all the time. You got to drag those suits out of the office too.
Just one thing is working normally.
And so they get a better understanding of what the practical people are doing.
Now, my animal welfare work on one of the things where I made some of the biggest difference
in animal welfare work is auditing programs.
I helped develop with McDonald's Wendy St and Burger King back over 20 years ago. And in this situation we were taking vice president level managers
out to the plant and they'd have these undercover boss moments just like that show. I'll never
forget the day when they make Donald's vice president so a half dead dairy cow go into their product. And he goes, yeah, we got some things here, we have to fix.
You see, before it was all an abstraction, spreadsheets, numbers, okay, animal welfare, give it to
lawyers, give it to the public relations department.
But when they came out of the office and they saw something bad, now it was real, now
they had to act.
It was no longer abstract anymore.
There seems to be a kind of pride in that abstraction
in some sense.
I mean, I've also noticed that highly intellectual people,
and maybe those are ones who think primarily in words,
tend to be rather dismissive of the intelligence
of more practical people, like working people.
And that's, I come from a working class environment,
so although I hung around verbal people most of my life,
so I can see that dichotomy.
Do you have any sense of why it is that
the more abstract thinkers are,
have it particularly in contemptuous of the practical?
Because they used to say, okay, the kids that are like
failing in high school, stupid kids going shop. Well, I can tell you right now. I worked big metal fabrication companies owned by these so-called stupid people
And what they they were inventing equipment
They had 20 patents and they were very proud of their patents and one of them made posters out of them put them up all over
his place
It's a different kind of intelligence.
And it's not, you know, there's things they can do that the verbal thinkers can't do.
And what I'm really interested in is we need all the different kinds of minds.
Because one of the problems with my kind of thinker, since I'm a sociative, is the point
in a company, let's say I had a metal fabrication shop, I'd
have to hire a verbal thinker just to run the business, the payroll, ordering materials,
things all of that part of it.
Do you think it's a competition for status between different forms of neurodiversity?
I mean, if I can claim that my intelligence is paramount, that increases my social status in some sense, right?
You can imagine there's a competition for that
broadly going on in society.
What I have found is when you got the verbal thinkers
out in the field, their eyes got opened.
That the important thing is,
you got to drag the suits out of the office.
I've done a whole lot of that.
And let me tell you, they changed. I've done a lot of work on supply chain management.
And when there's supply chain disasters like a factory burning up and a clothing industry's
disgusting industry, they need to clean up a lot of stuff. And a uh, fact, he burns up a hundred people selling a blue jeans. Well, the suits
didn't get out of the office and see what was going on in these factories until there was
a disaster. The one they should have been preventing a disaster like that.
Right. Well, yeah. So once you build up hierarchical organizations, it's very easy for the people
who are operating near the top of the abstraction
shade not to pay attention to the details.
And hopefully the details are working out so well that you don't have to pay attention to them.
I mean, that's in some sense the point of building a hierarchical organization.
But what you need to do, obviously the managers can't be doing every job out there in a plant,
but they need to have
enough contact with the field.
And I'm going to use the field, be like the factory floor, farming, water works, any of
these kind of things.
So they understand that there can be things bad going on.
But I tell business managers, and I've talked to many big corporations, computer companies,
steel companies, pharmaceutical companies, that the first step is realizing that different
kinds of thinking exist and that they can work together in complementary ways. And you actually
need to hold team. You need to hold team because we're kind of disorganized
and associational.
I'm going to need a verbal thinker if I got a really big
business to, you know, keep the business going.
So what do you think of the suppositions and you talk about them
a bit in your book, that the visual versus verbal
modes of cognition map to some degree onto hemisphere specialization.
Well, the right is more oriented towards the right hemisphere is more oriented broadly speaking
towards the thing that dominates your mind.
Yeah, but broadly speaking, that's true.
You know, they're exceptions to some of that stuff, but the thing that I want to talk about is is right now I'm seeing too many kids that are dyslexic autistic on or whatever I'm ending up playing video games on on a disability check when they could be photographers. I've got four-person crew here right now doing this film and that's an interesting career
or they could be designing mechanical equipment and they never get an opportunity to do photography
aren't or mechanical equipment because it kind of looks at these stupid kids.
They kind of look at these stupid kids.
Right, right. Okay, so there's a privileging of this semantic
and that's partly because it's cheaper,
it's easier, it's detached from the world in some sense.
How do you think we should redesign schools
for say kindergarten kids and elementary kids
in some practical way?
You tend to think practically.
What do you think would be good start?
Well, like in the 50s, when I went to school,
we had all kinds of craft projects.
I was learning to use little blunt scissors,
probably in first grade.
I'd be putting all the hands-on classes back into schools.
That's going to include theater, music, cooking, sewing.
When I went to elementary school,
I loved art, sewing, and woodworking.
And if I had not those classes,
I would have hated elementary school.
And I loved sewing.
And I'm what I was in fourth grade.
I had a singer, sewing handy,
a toy sewing machine that actually sewed.
And it was one of my favorite things,
because I could make things with it.
Kids are not doing enough of that kind of stuff today.
Right. Okay. So there's a return to the, there's, there's a need for a return to the practical
on, in some sense, on both sides of the gender spectrum.
On everybody, on everybody, on everybody, with, and I would, now I went, when I was doing a book signing for visual thinking, I went to, um,
Now, when I was doing a book signing for visual thinking, I went to a physics lab in Harvard, this room's labeled physics lab, and they had all kinds of 3D printers on there, but they
also had a sewing machine, and they also had a station for crocheting.
This is the building labeled engineering department at Harvard.
Maybe they're realizing they've got to get them doing some hands-on things. This is when I did the book signing for this.
It was part of the book tour.
The other thing I've noticed, I got into some interesting places.
I stayed at this hotel where they,
is it an Evansville Illinois, where they had textbooks
in the rooms from the 1930s.
I wish I'd had more time to look at it. And I pulled out an
electrical engineering book. And it had a lot of math on it, but it was much more applied. They'd
say, oh, this is how this is the generator works. This is the math that goes with it, but it would
describe how the generator actually worked. It was much more applied. And now the physiology book
that I had in the 70s, you know, explain how the kidney works, how the heart works, and
then explain the chemistry. Now I look at a physiology book and it's much more verbal,
a lot more math and chemistry, but how does the kidney actually work? I still have my
old dukes physiology of domestic animals from 1970 and I want to go back and compare that to the dukes physiology now and and it's like we're taking the practical out. I just got an email yesterday from the UK that they wanted to take a technology and design course out of a high school.
You see, I think this was happening now.
It's mathematics is totally taking over.
Yes, we need mathematics.
Because my kind of mind is not going to touch boilers and refrigeration
in that food processing plant.
That's a job for the mathematicians.
But what we're losing is the object visualizer.
Right, right, right.
Yeah, well, I wonder, I wonder too if part of this is the fact that, you know, for a long time in our society,
a lot of this practical machinery just worked.
And so we could afford to ignore it in some abstract sense, right?
Because our cars worked and our power grids worked.
And we could take all of this low-level infrastructure for granted. Now, that meant there were a lot of people on the shop floors who were busily working,
making sure it worked. But it did mean that we had the luxury to engage in abstract
specialization, and maybe we could fall prey to the psychological tendency to just dismiss all that.
Well, you see, when they first started, about 20 years ago, is when they started taking
shop classes out of the schools.
Well, you can get away with that for a while.
And then, the people I worked with, I'm gray now, are retiring.
They're retiring out, and they're not getting replaced.
That's happening with elevator and escalator mechanics.
That's happening with airplane mechanics
And I'm seeing that more and more and more and more as I travel these are three things
That I see all the time and they are getting gray
Right, right so yeah the retirement problem is going to be the retirement
I'll let this one do when it comes to industry, there's two gigantic mistakes that were made.
Shutting down in-house engineering shops.
20 years ago, we had a huge metal working shop called
the Montferr Fab Shop, and it was
part of the engineering of a company called Montferr.
So no longer exists now.
Well, that's been shut down.
Then at the same time, we took out shop classes.
Now, in a short run, it was cheaper for these companies to just farm out engineering work
they need to do in their plan. Yeah, that works fine until the shops retire out. And now what's happened,
like I can't go in the name of the company, but I have a client right now where the one shop that's left
is ripping people off at five times the price.
And that's happening right now.
Right, right.
Do you see any positive consequences
of computer technology for object visualizers
and for the people who are working
more in the visual spatial end of things?
Well, it's definitely useful to, you know, like the visualization and stuff you can do on computers.
But that doesn't replace real things. Let me tell you, power grid, I lay awake at night about that,
and that's so fragile that I'm not going to go into any detail because it's too fragile.
And I'm not going to discuss the things that I visualize and lay awake at night about
the power grid because it's just okay.
Okay.
Okay.
I'm curious about that.
Why not discuss them because I don't want to give.
I don't want to give people that have bad intentions and any information on how to hurt the power
grid.
Okay.
Okay. I see. I see. I see.
Yeah, yeah, the reason.
Right.
Because it's very easy.
So when you hurt it, and I don't want to give out any information,
it would help somebody damage the power grids.
So I don't discuss the details here, but I'm seeing them right now.
Right, right, right.
Yeah, well, that's part of that ability to think about critical points of failure.
Well, there's so much to do with this.
I know exactly.
I know where the critical points of failure are,
and I'm not going to discuss them.
Right, right.
So we can all be thankful that you're not a terrorist.
Yeah, I'll be thankful I'm not a criminal.
Yes, exactly.
Exactly.
Well, I've always often been afraid when thinking along the same lines that you're describing
of just exactly how fragile things are in that regard and how much someone with a good
imagination, how much damage they could do if they targeted things properly.
It is really quite frightening to apprehend.
Well, that's why there's certain things about the power grid.
I am not going to discuss.
And I'm seeing three big fat critical control points right now. Well, that's why there's certain things about the power grid. I am not going to discuss.
And I'm seeing three big, fat, critical control points right now.
I'm seeing them in my mind.
And they make me cranche.
Right.
So, can we talk a little bit about the specifics of your work?
I remember one of the stories you told at this Tucson conference was about...
You talked about cows that they would do such things
as go into a field and look at it. If you left a briefcase on the field, for example, the cows
would eventually come and look at it. A cow's in a line might be stopped by something like a
cope bottle in their path. And so you used your ability to think like animals, to design systems for animal handling that
were much more humane.
So could you walk us through that a little bit?
Well, the first work I did with cattle was in the 70s in Arizona.
When I didn't even know that I was a visual thinker and other people were not a visual
thinker.
And I noticed that if there was a coat hung on the fence, the cattle
would stop. If there was a shadow or a reflection off a vehicle. So I got down in the shoots to
see what they were seeing and I would take pictures down inside the shoot. And people thought
that was kind of crazy. But now I like right just recently did start up at a really big plant, and at 10 o'clock
in the morning, everything was working fine.
And then at 3 o'clock in the afternoon, a big shadow appeared, I called the spider monster.
And it was just a shadow.
And on these cattle decided they weren't going to walk over that.
So they'll have to build a roof over the facility so that the cattle can't see the spider
monster.
The other thing I show people how to do is watch your lead animal.
Your lead animal will come up and stop and look at the thing they don't like.
The same plant on the night shift, okay, the shadow monster wouldn't be there.
The guy calls me and he goes, they go halfway up the shoot and stop.
All right, what do I do?
I said, now bring up a nice, calm bunch of cattle.
Watch your leader really carefully.
He'll look right at the thing he doesn't like.
And there was an LED light on the corner of a building.
And they took that down, and then everything worked fine.
How do you identify the leader?
Well, there's always a leader when, all right, let's say I take a 20 head of cattle out of a pan,
there's a lead animal that walks out first.
Usually one of the more bold animals,
not the dominant animal.
The dominant animal that pushes the others away from the feed trough,
he's in the middle of the herd,
or she's in the middle of the herd,
but the leader will come out of the pen first and the other cattle follow.
And it's just the first animal in the group, so leader.
That's simple.
You see, as we're talking about that, I'm seeing it.
Okay, so is that leader stable across instances of leadership and is that associated with
disability to find what's anomalous and to deal with?
Well, in cattle that have lived together for a while tend to stay in the same order.
Years ago, when your tags came out that were sequentially numbered, in other words, you could just buy
a package of ear tags labeled one through two hundred and they put them on their cattle.
And one of the things that surprised ranchers, when maybe 200 cattle came back the following
year to go through the shoots to get vaccinated, they were coming to in almost the same order.
Now that's a group of cattle that lived together.
Okay, is there something?
Okay, so you made the observation that the lead animal will stop and look at the thing
that he doesn't like.
And so are the other animals,
and but also that lead animal
wasn't the physically dominant animal.
He's got some other characteristics.
The animal is dominant at the pushing others away
from the water trough or the feed trough.
But once the lead animal walks,
the other cattle usually will follow.
Same thing with shape.
The other animals will usually follow.
So you remove the distractions that the lead animal's reacting to.
And at this particular plant, we had two things we had to get rid of.
We had to get rid of the spider monster shadow.
And we had to get rid of an LED light that was on the corner of a building.
So do you have any sense of why the other animals
come to rely on the lead animal?
Like, what's the lead animal being selected for?
Or is it just a first mover?
Well, the lead animal.
What's the meaning of this lead animal?
You see, there's different levels of fear in animals, genetically.
Some animals are more bold, other animals are more shy.
Or you can call those
high and low fear. And the animal that's more bold is more likely to be the leader than
the animal that's more anxious. And, and, and, you know, if you don't have a bunch of
cattle that have lived together all the time, you know, that there'll be certain animals
that tend to be the leaders.
And then you've got the big one with the giant horns and she shoves everybody else away
from the feed trough.
There's something that's very profound about that because you're laying out the fact that
it isn't the dominant animal that leads.
No.
And that it's the animal that's exploratory and somewhat willing to take risks that
leads.
That's right. That's right.
But also that the lead animal will spot anomaly, right?
Like the spider monster that you're describing.
And so it's not like they're so bold that they're completely without fear.
They're still acting cautiously in some sense.
All right, so you can walk the lead animal down a shoot and you can see what it's going to see.
And you can actually do that
because you go down there and do it,
but you also think that way.
You gotta bring your cat up really calmly
to say because if you bring them up at a run,
then the leader just turns back.
And you don't know what it's reacting to.
Oh yeah.
I said, don't not bring them up nice and calm.
Watch the leader come up the shoot.
And when he stops, he'll look right
at the thing he doesn't like. And he looked at the LED light on the corner of the building then
they texted me a picture of it and they got rid of that and that fixed the
problem. Now have you have you have you developed some sort of picture of the
class of things that stop cats? Yes, yes, I have. I have.
The spider more. Okay, so tell me what sort of things can just stop cattle. I have pictures. I have checklists of things to look for
Reflections on water at this particular plant. There was a gate handle a gate handle that jiggled and it was right by the shoot entrance
I said that needs to be fixed. So this gate handle doesn't vibrate.
So what's common about the things that stop cattle in their tracks or can you extract
out the common? Well, let's look at, let's look at cattle's
appraise species animal. So you're looking for things that might be a danger. Some little bits of rapid movement set them off.
And something that sort of like shouldn't be there. Like you can put a white plastic bottle
in the entrance of the shoot, now about shut a meat plant down.
They'll just keep turning back away from it, turning back away from it.
Right, so they're looking for something that doesn't fit the environment pattern, and that's
probably doing something like activating predator detection.
Well, that's right. It's like they're looking for stuff that, you know, a movement in
the bushes, maybe that's a mountain lion or a wolf. Some little movement in the bushes.
The other thing about new experiences,
if you take something like camera equipment,
cattle love camera equipment,
you put an expensive camera in the middle of the pasture,
they will come up and knock it over and lick it to death.
That's what they will do.
See, things that are novel are attractive
when the animal can voluntarily approach
and scary if you suddenly shove it in their face.
You suddenly shove it in their face, then it's scary.
Right.
And so the best way to introduce new things to cattle is to let them voluntarily approach it.
I don't know how many times people say to me, my horse was fine at home.
He went crazy at the show.
Well, you've got a lot of novel stuff there, like flags, for example.
So you better get your horse used to flags before you go there.
And the best way to get them used to flags would be to decorate the pasture with flags
and let your animal walk up and voluntarily approach them.
Right, right.
Well, you know, that's exactly what you do in psychotherapy when you're trying to help people
overcome a phobia, right? So if someone's afraid of an elevator and won't get in it, that often
happens with agrophobia, what you do is you say to them, okay, let's start by imagining elevators.
So that's going to make you bit nervous, but imagine an elevator at some distance that doesn't
make you uncomfortable. Okay. Okay.
And then you say, okay, well, now you've done that.
See if you can move yourself in your mind closer to the elevator door.
And then you keep doing that, but it has to be voluntary.
It's 100% absolutely necessary for it to be okay.
So maybe you run them through this Imagine Exposure Therapy.
And then you say, okay, for our next session,
what we're going to do is we're going to go out in the hallway, you know, that elevator
you wouldn't take. We're going to go out in the hallway, we're going to stand 200 feet
away from the elevator, and you're just going to look at it if you can't. And so they'll
do that, it has to be voluntary, and then you can get them 150 feet away and 100 feet
away, and soon they'll be right up to the elevator door. I was very anxious, you know, my 20s, and I got terrified of airplanes because I was an extremely scary
emergency landing when I was a senior in high school.
They put the slides down and the whole thing, very, very scary.
And one of the ways I got over that is I had to make aviation interesting.
And when I got the ride in the cockpit of a plane flying
Holstein Heffers to Puerto Rico,
that made it interesting.
You make something scary interesting.
Because I know another thing they do on the elevator phobias
is they show them how the safety mechanisms work
that the elevator's not going gonna fall down the shaft.
Yeah, well, you know, you even compel that interest
to some degree. So, for example, once you get a
phobic person inside an elevator,
what they'll tend to do is look at their feet.
And so you say to them, look, quit looking at your feet,
look at each corner of the elevator,
look at all the numbers, look at the display panel, like you have to facilitate their voluntary
visual exploration.
Okay.
And to some degree, what you're doing is you're calling out their interest, to say, attend
to all of these things as if they're interesting.
And then that's how they familiarize themselves with the elevator.
And they also note that, well, they're in there.
Because you have to look at the elevator
to know you're in an elevator, right?
Literally, you have to move your eyes
and point at all the different parts of the elevator.
And the more that you can help people do that
at a high level of detailed resolution voluntarily,
the more likely they are not only to become less afraid
of the elevator, is that actually isn't what happens.
You actually train them in a form of exploratory bravery
because what you teach them is that if they use their eyes
voluntarily to scan what they're afraid of,
they'll become braver.
And then that generalizes to all sorts of other instances too.
So if you train someone to be less afraid of an elevator,
they're much less afraid of other things as well.
Well, that's right. And the thing that was saying, I'm saying now in dogs,
you know, we have very strict lease laws here, and there's more problems with dogs being
afraid of the veterinarian, because they haven't been out experiencing enough stuff like
strange people touching them, for example, just going to lots of different places.
You know, this is the reason why when they train serviced dog puppies, you take them everywhere, so that there's almost nothing that will frighten them.
Yes. Yeah, well, that's the same argument you were making earlier about the fact that to train people practically, we have to put them in a lot of different practical hands-on situations, and so that they can generalize across all those
instances. And so, experience that's too narrow is too restrictive. Well, I get worried that we're
going to have people making policy on all kinds of important stuff on when they're so far removed
from the world of the practical.
You see, we need to have both
because the problem with us practical people
is we're not organized enough.
That's where just about every tech company
has to hire a suit eventually,
just to keep the company organized.
Somebody's got to pay the payroll.
Somebody's got to pay the taxes.
Somebody has to make sure the rent is paid.
They need more office space than they've got to go shopping
for office space.
You know, there's...
Well, and we really do need all the different kinds of minds.
Well, when I look at the ideological solutions
that are being put forward to the world's problems continually,
I do wonder the same thing you're wondering about, which is, is this empty ideological
representation, a consequence of the fact that the people who are doing this have no practical
experience at all?
It's like they're not thinking at the level of detail.
Well, I think that it's a problem because when I worked originally, this was over 20 years
ago with McDonald's, Burger King, and Wendy's, and they took the top managers out into the
field and implemented the auditing program.
It was interesting to see how the animal welfare issue went from an abstraction.
Give it to legal, give it to public relations, do something real that they really needed
to address. Half dead animals going that they really needed to address.
Half dead animals going into your products, not OK.
Right, right, right.
A broken stunning equipment is totally terrible and not OK.
And that's mainly a management problem and failure of the due maintenance.
And when I worked on that 1999, I got five journal articles published on this.
And I saw more change than I'd seen in my whole career when these big companies were
inspecting these plants.
But I figured out a very simple scoring system.
If you couldn't shoot 95% of those cattle dead on the first shot, you failed to make Donald
saw it.
It was that simple.
Some very simple critical control points.
If you had more than 3% of your cattle bellering their heads off
when you're handling them, you failed to make Donald's audit.
Okay, so why did that turn out to be the critical issue?
Well, the broken stunners were a big issue.
Now, on the handling, I figured out a way to score that.
That's very simple vocalization.
If you're poking cattle with too many electric prods
or you're slamming doors on them or whatever,
they're gonna be bellering their heads off.
And I better not hear any bellering
coming out of the place where they kill them.
Well, I hear bellering coming out of there.
Somebody needs to get kicked off the approved supplier list.
It's that simple.
That's one of the critical controls.
Right, so you used animal distress as an indication of...
That's right.
Efficiency of process. Okay, can you walk us through some of your designs?
I mean, you designed these circular cattle enclosures as well to calm them down.
The circular designs are really nice, but I'm also very proud of the fact that it was 75 plants on the McDonald's approved supplier list. Only three had to buy fancy expensive equipment.
Everybody else we fixed with management. Yeah, three managers had to be removed. I call that
manager, ectomy. A lot of non-slip flooring had to go in because one of the things we measure is slipping and falling. And lighting, cattle are scared of the dark, training people to move smaller groups of
animals and put a solid side up so they don't see the vehicles passing by.
And these very simple changes, we were able to fix some of the older places.
And I'm very, I used all my design ability to figure out how to make some of
the older facilities work, even though they did not have the fancy new equipment.
And then we had three science, only three plants had to do a front-end remodel that was
very, very expensive.
That's three out of 75.
I'm really proud of that.
That's all a big part of the plants in the U.S.
Right.
So, so tell me, tell me so tell me what your goals were.
Okay, so let's walk this through at the level of detail.
So why don't you tell people about how these cattle handling plants work,
broadly speaking, from the time the cattle arrived till the time they're processed,
let's say, and then how are you brought into fix them?
Well, unloading a truck.
Make sure you have a non-slip unloading ramp.
Open the gates up, let them out.
You do not need to scream at them,
pound on the vehicle or stick electric prides
through the holes on the side of the truck.
So let the cattle just get off and they will.
And then they should walk quietly out of the truck
if they got a scale, way up on a scale,
and then quietly walk into a holding pan,
get a drink of water, maybe lay down.
That one is time to go up to the plant,
somebody should come down, bring a group of 20 out,
not a group of 50,
and you quietly walk them up the alley,
to where they get to where the round crowd pin is,
and the whole thing should be in a calm walk
without slipping and falling,
and without moving and bellering, and almost no electric crowds.
That it should all be very calm walking is what it should be.
Right. And how many plants did you go analyze?
We had 75 plants on the approved supplier list,
and only three of them had to have extensive renovations.
But we did have three plants
where the plant manager had to be removed.
Right, and so in those cases, yeah,
why did you remove the managers?
Well, the ones where we were able to get rid
of the plant manager were the corporate ones.
On the plant, then we had one plant, the ways to we're able to get rid of the plant manager are the corporate ones.
The plant, then we had one plant, the ways to call the problem child, and manager was family
and we couldn't get rid of it.
That plant would like, you know, fail on on it and then pass on on it.
But management has to decide that they're going to do things right.
You can have the best equipment.
And it's not going to work if it's not managed.
In fact, before we started these audits, I had a lot of equipment out in the field, lots
of equipment. Half my clients tore it up and wrecked it. And what the customer inspections
and audits did is force the plant to manage the stuff they had, either brand new fancy
stuff or older stuff.
And so how broadly did your innovation spread and how rapidly and what were the consequences
of that for the meat handling industry in general?
Well, the auditing program was within six months, the end of the year of 1999 was adopted
by McDonald's, Wendy's and Burger King.
And that covers just about all the big beef plants.
And I saw more improvement than I'd seen
under 25-year career prior to that.
People were no longer using broken equipment.
They were moving small groups of animals.
Things were kept repaired and employees
were better supervised.
And boy, it made a big difference.
So why do you think you were able to do this?
I mean, you obviously can solve the problem practically,
but how were you able to make your way in the corporate world
in a manner that actually resulted A in people listening to you
and B in changes actually being made?
Cause that's quite a remarkable
combination of unlikely achievements.
All right, let's start off.
I started out with equipment.
This was in my 20s.
And I found that selling equipment was much easier than getting people to manage equipment
correctly.
And early in my career, I made the mistake that a lot of young engineers make, I thought
I could make a self-managing cattle handling.
So that is BS. And I got a lot of young engineers make, I thought I could make a self-managing cattle handling. So, that is BS.
And I got a lot of systems out there.
The other thing that helped me to get systems out into the industry is I wrote about them.
And I wrote about them in the meat industry and cattle industry trade press.
Wrote all kinds of articles just about how to do it.
So now I had a lot of equipment out there.
Senator Tracker-Streiner and lots of lots of these big plants
had one.
It's a piece of equipment I developed with the guys
in the shops that I've talked to you about earlier.
But half my clients tore it up and wrecked it.
Then I worked with a lady named Janet Riley
at the American Media Institute.
And I came up with this very, very simple scoring
system for evaluating meat packing plants.
And we wrote it up in our guidelines.
Nobody used it for two years.
Then McDonald's approached me to implement their animal welfare auditing program.
And it started out taking vice president level managers out of the
office. They saw some bad stuff. And it started out as little training program. They already
had food safety auditors in the plants auditing. That was already being done. And so I took
the trains, the food safety auditors, to do the animal welfare audit.
And within six months, I saw more change
than I had seen in my whole career prior to that.
Then Wendy's got on board, then Burger King got on board.
And I made sure that everybody used the exact same score.
So it was absolutely clear. It was like traffic rules.
You know, they measure speeding.
We measured how many vocalizations
the cattle did. We measured how many animals felt down. Those things were measured. And
the plants had to make certain numbers. It was absolutely clear. There were five critical
control points. And they had to do all five of them to pass the audit. I kind of sometimes
can't believe I pulled it off. It worked beyond my wildest dreams. But it was absolutely practical.
Right, right. Yeah, while it did, it is quite a remarkable thing to pull off to be able to make
that kind of change in the corporate world so quickly. That's really quite remarkable.
The other reason I was able to make change, I practiced reverse conflict of interest.
I had a lot of expensive equipment already out in the plants.
I'd been over backwards in the older facilities to figure out how to make that older facility work
without buying expensive equipment.
Let me tell you, non-slip flooring, it can work wonders.
We did quite a lot of that.
But that's not expensive equipment.
I'm really proud of the fact that it took some of the older facilities
and we made them work.
And then we did have three, only three out of 75 plants
that had to build an expensive front end remodel.
And that was very expensive.
So what would you say if you had to put it into a few phrases?
You weren't obviously pursuing mere narrow profit at that time.
Not that there's anything wrong with profit. You were serving some other goal.
I was serving the goal of improving animal welfare, and I've been over back to do reverse conflict
of interest. And I tried to take some of those older facilities, some of them a bit shabby, and make them work with simple changes,
like repairs, non-slap flooring, changing the lighting,
and three plants had to have the plant manager removed.
And that solved that problem.
So why were you so concerned with animal welfare,
and how would you define animal welfare?
Why did that become paramount in your hierarchy of goals?
Well, one of the reasons why I started working on the equipment is the way cattle were being
handled was horrible.
You know, electric prods on 100% falling down, crashing into things, people screaming at them.
Cattle handling in the 80s was terrible.
Absolutely terrible.
And I saw that as something that I could fix. Now I talked to a lot of young people today that want to do activism about some specific thing. And it's way too broad. I want justice in the world, for example.
Right, yes, yes. Might be something they would say. Yes, yes.
And I say, why don't you do something more targeted?
Like using DNA to show that this prisoner was falsely accused.
You see, now that's something more targeted like using DNA to show that this prisoner
Was falsely accused. You see now that's something a lot more targeted that you can actually do
Yes
Absolutely, and I think that is a huge problem with the way that kids are trained morally in universities is that that
grandiose vague
activism is that that grandiose vague activism replaces
the actual practicalities of problem solving
that you're describing that actually make a difference.
Why do you think it was that animal suffering stood out
for you?
Is it partly because you can think like animals?
Like, why do you think it was?
How would you like to get shocked to electric prods
and be slipping and falling and crashing into fences
and things like that?
You'd be terrified.
And my goal was to improve how the cattle were treated.
When I talked to students about, you know, activism, I said, what I worked on wasn't
everything bad happening to animals.
I worked on something targeted.
The thing that I'm seeing now with young people that want to make a difference,
they say, I want to have justice in the world,
or I want to like, animals are treated terrible,
we got to do something about it.
And I'm saying, you're going to be more effective.
If you pick out something relatively targeted,
I worked on cattle handling to start with.
That's not everything to do with animals. Yes, exactly.
Or the example of using DNA to show that this criminal was innocent. That's something
much more doable and targeted that you can actually do.
Right.
So, how was it that the suffering of animals in meat tracking and meat packing plants
came to your attention to begin with? So, you said the suffering you found that unbearable.
First of all, it started out when I went out to the feed yards, a handling cattle, back
in the 70s, there was a lot of really heart-able cattle handling.
And I made a mistake in the beginning that a lot of young engineers make.
They think technology can solve all their problems.
And I mistakenly believed
that I could build a self-managing cattle handling facility. That's nonsense. I know that
now. This nonsense. Good equipment makes good handling better, but it doesn't replace
management. And what the auditing program did is it forced people to manage the facilities.
And why were you at the cattle handling facilities
to begin with?
I mean, was this part of your academic training
or was this part of the fact that you'd grown up on a farm?
Well, I got interested in, got to go out to my aunt's ranch
and this brings up the other things students get interested
in stuff they get exposed to.
It's that simple.
In one of the people I profiled in visual thinking was Michelangelo.
Grubby little 12-year-old dropped out of school, but he was running around all the churches
seeing great art, and he grew up with stone cutting tools.
Okay, that's the exposure.
Then he started making some stuff, and then an artist took him in as an apprentice.
That's mentoring. Good career start first with exposure, and then an artist took a minute as an apprentice. That's mentoring.
Good career start first with exposure,
and the other reason why I'm so concerned about taking
all the hands-on stuff out of the schools
is those things like, let's say, theater, for example,
exposed students.
I didn't care about being in the play,
but I loved making scene rate and costumes
that I love to do.
Now, that's something that can become a career.
So, let me, we're running out of time on this segment.
Let me ask you one more question, and then maybe I'll sum up our discussion for everybody
or try to extract out the gist.
You think primarily in pictures, but you're also an extremely effective verbal communicator.
I mean, you've written a number of books.
You can obviously talk your way into corporate environments
and help people walk through the complex process
of restructuring, say, animal handling
on a pretty much on a national scale.
How did you think you've been able to develop
your verbal ability?
Like, what did you do to manage that?
All right, it goes back to when I was seven years old.
And in my neighborhood, all the kids,
when they were seven,
when the parents had a party,
you had to put your good clothes on,
greet the guests and serve the snacks,
be little hosts and hostesses.
That's what you had to do.
I sold candy for charity.
That helped me on talking to people.
The other thing I figured out very early on
is back doors into jobs.
And most people don't see this.
In the HBO movie, Temple Random, there's a scene
where I go up to the editor of our State Farm magazine
and I get his card.
Because I knew if I wrote for that magazine,
that would help my career.
That's a back door.
Writing, I did a lot of writing.
There's how to handle cattle, how to design facilities.
And I was so happy when one of my very early articles got picked
up by two other magazines.
You know, it had made the national scene.
Of course, this is all pre-internet.
And then that press pass got me into all kinds of meetings
that helped me to get into my next self-made internship
with a swift plant.
I've recognized the back doors.
Mostly we don't recognize the back doors,
but lots of good jobs are gotten through the back door.
Right, so you allied your ability to concentrate
on focal details practically with the ability
and the willingness to communicate
on at all sorts of different levels verbally.
You were able to bring both of them together.
That's getting to abstract for me. I just go okay I got the card within a week I made my done a master's thesis on cattle behavior in different types of squeeze shoots.
And I sent them a good article and they published it. Then I went back to them and said maybe I could just write something for you every month.
I just walked into the office and asked that job.
So, I did that as a volunteer for about three or four months and then they started paying me.
I wasn't trying to walk up and ask.
Right.
Right.
So, you developed a communication expertise and a communication network at the same time
that you were trying to implement your practical solutions.
And both of those facilitated each other.
Well, in the very beginning, I wasn't even designing facilities.
And then I was just visiting all these feed yards and writing for the magazine.
And that press pass got me into all kinds of places.
I recognized the value of that press pass got me into all kinds of places. I recognized the value of that press pass.
It got me into meetings in the 70s with $600 registration fees.
I was no way I could have afforded that.
There's a seven.
Right, right.
Right.
So what are you working on now?
You finished this new book that came out in 2022.
What are you doing now?
Well, I'm very interested in seeing the kids who think differently, get into good careers.
And that's going to be a major emphasis of the things that I do now. Be a lot of speaking
engagements, a lot of interviews like this, because I want to see those kids that are
different, get into good jobs. Okay, if they're object visualizer like me, maybe art job, maybe photography job,
or a job building things.
If they're the more mathematical visual spatial,
a good programming job, a good mathematics or chemistry job
where you need the mathematics.
There's too many kids that think differently.
Some of them just kind of go nowhere. I want to see them
get into good careers and do things that will be constructive in the world. Do something constructive.
So we're going to switch over to the additional half an hour that I produce for the daily
wire plus platform to delve into some of the biographical details of your life.
Before we close, I'd like to just sort of wander over the territory that we've covered
and see if there's anything else, see if you think this is a reasonable summary, and
if there's anything else you want to add.
I've been talking with Dr. Temple Grandin today, who's developed a spectacular career in
modifying animal handling and also managed a lot on the more purely intellectual front
as well in terms of conceptualization
of information processing.
She's, we talked a lot today about the difference
in the ways that people think, concentrating mostly
on the distinction between visual thinkers
who tend to be more practical
and detail-oriented, and who can be broadly differentiated into two categories, and those
would be object visualizers and people who think more visual spatially and mathematically,
contrasting them with people who think more verbally.
We talked a fair bit about the prioritization of more verbal and abstract thinking at the cost of this
practical thinking and training in that practical thinking. We discussed how that's affected the school system and broader culture.
We discussed the dangers that poses to the integrity of our society as we lose the people who have the hands-on knowledge.
We talked about the psychological danger that poses to people who think
more practically, concretely and visually, who are in school systems that are optimized for the
verbal thinkers. We talked about temples, career at the detail level, emeliorating the suffering of animals that across like nationally and
internationally as it turned out, partly because she decided not to chase mere
generalities but to focus on an actual problem which was the suffering of actual
animals in actual plants was willing to focus her emotional concerns on something that was practical and
to marry that with a strategy that involved particularization and visualization and verbal
communication and practical interactions with corporations.
And also we close that with a discussion of the fact that what she's doing now is trying
to bring to people's attention in podcasts like this, the fact that we seem to be
working contrary to our own best interests by not building educational facilities that help optimize
the ability of visual thinkers to function, but also for society more broadly
to take advantage of the talents and skills
of those people in the innovation
and in the maintenance of the infrastructure
that we already have around us.
And so I think that about summarizes
what we talked about today.
Is there anything you want to add to that?
That definitely kind of summarizes
that we need all the different kinds of minds.
And when we understand that different people think differently, they can work in teams
where they can collaborate and have complementary skills.
I think that's something that's really important.
Also, one thing I would do with schools is I'd put a lot of the
hands-on classes back in, like art, sewing, woodworking, shop, welding, auto mechanics,
theater, because these are all things that expose kids to things that can become possible
careers too.
Right, and those are all things that have to be done in an embodied sense.
You actually have to, it's not purely abstract. And any, any, it's not abstract.
Something you are.
Not those things are abstract.
Yeah. Well, that's, I suppose, a danger of moving so much education online as well as
that it's going to increase the degree of the structure of the structure.
Well, that's right. The other thing, when I went to the book signing for visual thinking,
I told you about the electrical engineering
book from the 30s I found in this unique hotel room, but I also got put in the office of
a professor in political science, and I looked at some of those books, and it was so abstract.
Theories about politics. I didn't even understand it.
It had nothing to do with right or left. It had to do with just abstractions that were so abstract.
It made no sense to me.
I'm going, oh, I wouldn't want this person in charge
of figuring out what the power grid.
I remember at this Tucson conference
where I first saw you speak,
after you spoke, very practical talk,
very much like the one that you delivered today
when we were talking.
A philosophy student got up because there were a lot of abstract thinkers at this consciousness
conference and asked you something extremely abstract and philosophical.
And you did exactly what I would expect a good engineer to do, which was to say, you
know, I really don't understand anything that you just said.
I don't know how to associate it with anything practical,
and I'm completely unable to answer your question,
which I thought was just,
it was ridiculously comical.
And I also thought, what would you say?
Well targeted, because it was the case that,
you know, you had been talking about real practical realities,
your ability to think like an animal,
the fact that you had taken these practical steps to
ameliorate animal suffering and that that had been so consequential and so of obvious worth.
And then you were faced with this flight into abstraction and did what engineers always did do,
which is something like, well, yeah, but I don't understand that. What does it mean practically?
Which is a really good question.
It's a question that should be asked of abstract thinkers all the time.
What are the devils in the details here that you're overlooking?
How much do you know about the systems that you're abstractly representing?
And the answer to that is usually almost nothing.
Well, it's sort of like,
we need all the three different basic, you know, different kinds of minds.
You need the object visualizers.
You're going to get the arts, mechanical, and photography and animals.
You need the visual spatial mathematicians, computer programmers, chemists, things that require mathematics.
And we need the verbal thinkers, because they're going to help organize things.
You see, you need all three different
kinds of minds and they should work together in a complementary fashion.
All right, well that's a good place to end this segment I would say. I'm going to go thank you
to everyone on YouTube and the associated podcast for your time and attention. I hope you found this discussion interesting and engaging
and practically useful as well.
I'm going to switch over to the data wire plus platform
and I'm going to talk to Dr. Temple Grand
and a little bit more on the biographical end.
I wanna lay out how her interest in the issues
that she did pursue professionally
made themselves manifest in her life?
Hello everyone. I would encourage you to continue listening to my conversation with my guest on dailywireplus.com