Ten Percent Happier with Dan Harris - From the TED Radio Hour | Body Electric
Episode Date: October 6, 2023Hello my fellow suffering human beings! I’ve got something very special for you. My friend, Manoush Zomorodi – host of TED Radio Hour from NPR – has been working on a special series cal...led Body Electric: an interactive investigation into the relationship between our technology and our bodies.Do you ever spend all day at a computer…and then, in the evening, you only have the energy to look at your phone or TV? Ever wondered what all that tech time is doing to your health? In this series, you’ll hear how our bodies are adapting and changing to meet the demands of the Information Age…and what we can do to end this vicious cycle of type, tap, collapse. There’s even an interactive study you can sign up for! Here’s the first episode. If you like what you hear, listen to Body Electric on the TED Radio Hour podcast from NPR. See Privacy Policy at https://art19.com/privacy and California Privacy Notice at https://art19.com/privacy#do-not-sell-my-info.
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Hello, my fellow suffering beings.
I've got something special for you today.
My friend Manouche Zamorodi, former guest on this show,
current host of the Ted radio hour from NPR.
She's been working on a special series called Body Electric and Interactive Investigation
into the relationship between our technology and our bodies.
Do you ever spend all day at a computer?
And then in the evening, you only have the energy to look at your phone or TV.
Have you ever wondered what all that tech time is doing to your health?
In this series, you'll hear how our bodies are adapting and changing to meet the demands
of the information age and what we can do to end this vicious cycle of type, tap and collapse.
There's even an interactive study that you can sign up for.
Okay, so here is the first episode.
If you like what you hear, you can listen to Body Electric on the Ted Radio Hour podcast
from NPR.
Hey there. Something happened just a few seconds ago that was extraordinary.
You tapped or clicked a button to play this podcast.
You ever think about what powered your brain and body to make your finger do that?
Do you ever think about what powered your brain and body to make your finger do that? Well, it's the same thing that's powering the device you're listening to right now.
Electricity.
They don't work exactly the same way, but our bodies and batteries have a lot in common,
including a story that starts with a frog. No, not that kind of story. This frog was dead.
In the late 1780s, all kinds of animals, including frogs,
were being dissected in the lab of an Italian doctor named Luigi Galvani
to study their anatomy. One day, something wacky happened.
When one of my assistants, by chance,
lightly applied the point of a scalpel
to the inner, cruel nerves.
Of the frog, suddenly all the muscles of the limbs were seen,
so to contract that they appeared to have fallen
into violent tonic convulsions.
This is Smithsonian Curator Lila Veckerdi, reading Galvani's account of the dead frog kicking.
Galvani believed he had made a major discovery. His hypothesis can be put in a two-word phrase,
animal electricity.
He thought that the frog that all animals
store electricity in their cells, like a battery.
He wrote up a report with lots of beautiful diagrams,
printed just 10 copies, and sent them off
to scientists scientist friends.
So now we are looking at the title page of this publication from 1791 which was printed in
Bolonia. We see that. I went to see one of Galvani's precious copies at the National Museum of
American History in Washington, D.C. It's almost like a magazine. I guess it's kind of like if we were to get
like nature magazine today with publicism.
That's what it was originally as an article.
One of Galvani's pals, an Italian physicist
named Alessandro Volta, read his article,
and Volta thought Galvani's idea is about animal electricity.
Eh, they weren't quite right.
Volta decided to test them. Volta was a more rigorous scientist about animal electricity? They weren't quite right.
Volta decided to test them.
Volta was a more rigorous scientist than Galvani was.
Roger Sherman is the physics curator
at the National Museum of American History.
And Volta experimented very carefully
and determined that what was making the legs twitch
was a circuit between the frog and the scalpel,
which was made of steel,
and a different metal like copper or brass.
And when you have a circuit like that,
it creates an electrical current.
So, Volta figures out that actually,
you don't need a dead frog or any other animal.
You just need to put different metals together, stick them in a conduit like saltwater, and
presto.
You can generate electricity.
Volta calls his invention the Volteic pile.
Volta's pile.
There's a pile there.
Two stacks of different discs of metal.
This was basically the invention of the battery.
Yes, and from that discovery comes our modern electric batteries and the whole
idea of electricity as a current that continues to flow.
Volta as an voltage. The net, the electrical unit volt was named after him.
And Galvania as an galvanize?
Yes, that's right. It all comes back to the frog.
Electricity in the body works differently
than what we use to keep the lights on,
but Galvani wasn't totally wrong.
It is what makes us move, think, and feel.
Electricity is the spark of life.
As the poet Walt Whitman famously wrote,
I sing the body electric to feel the pulse
of the world in your veins is to feel alive.
But let's be real.
These days, that vitality is waning.
Our laptops and phones keep going,
but for many of us,
spending hours attached to our devices,
well, it's depleting us.
We feel stuck in a vicious cycle of type-tap collapse.
I find myself sitting,
I find myself staring at screens,
I find myself trapped in that world. I'm not moving as much as I could or should.
My shoulders sometimes hurt sitting at a computer, hunched over. It doesn't seem like it's something
that takes a lot of energy, but it absolutely does. I'm not sleeping great, I'm so tense and tight.
My back aches. I tend to just continuously lean further
and further and further into the computer screen.
Yeah, I think I feel the most in my eyes.
And it almost feels like you're drunk or something.
It's like it's such a dizzy, destructive,
it's almost just associative.
I was tired and I take breaks.
I'll be like, hey, you need a break.
So stop looking at the big screen and now it's time to look at the little screen. I was tired and I take breaks, you know, I'll be like, hey, you need a break.
So stop looking at the big screen and now it's time to look at the little screen.
Look, that's not good.
Oh, man, I hear you.
We are in a silent battle with our devices and they are slowly stealthily draining us.
But how can we maintain our energy?
When nearly 85% of jobs are mostly sedentary?
And even when we're not working, so many of us spend the majority of our other time
on screens too?
Well, I think it's time to find out, because I'm not sure we can keep going like this.
I'm Manusha Zomerodi, host of the Ted Radio Hour and a long time tech journalist.
And welcome to NPR's Body Electric, a special six-part investigation into the relationship
between our technology and our bodies.
And what we can do to make it better.
Over the last decade, I've been on a sort of quest to get people, including myself, to
observe our behavior so that we can understand and change how we live with technology.
And I've found that the right combination of history, hardcore science, and some self-experimentation
can help us make real change.
Which is why this series has an interactive element.
And we think it's actually a first for public radio and podcasts.
We're partnering with Columbia University's Medical Center to do a massive study with
you.
Can we take their findings in the lab about getting off our butts and
Translate their recommendations into the real world. The only way we're gonna know is if we try
So I'll explain more about what we're gonna do and how you can sign up later in the show. It is pretty darn exciting
First though, we need to understand how we got ourselves in this position the big picture
So we need to understand how we got ourselves in this position, the big picture. When we come back, how are tools have shaped our anatomy through the ages?
Stick with us.
Before we get into what's going on with your health and your technology right now, let's
get some context.
Because since the beginning of humans, the work we did and the tools we used put stress on our bodies
in bad and good ways.
So we have approximately 49% of the bone density than that of hunter-gatherers. The density of the upper arm bone in female
aquaculture lists was greater than Olympic rowers.
Wow!
No amount of time at the gym is gonna bring that back, right?
This is ViBarCriginRead.
And I am professor of English and environmental humanities
at the University of Kent in the UK.
And my most recent book is,
Primate Change, How the World We Made, is Remaking Us.
Vibars, a little obsessed with how our health is impacted by how we spend our time.
Because as our work has morphed, our bodies have morphed in response.
Yeah, we have the same DNAs we've always had.
But the ecology of labor has changed a great deal.
Now, what I mean by that is the variety of labor
that a hunter-gatherer would do with their body,
ments, their bodies were very, very different to ours.
Yeah, so let's start with the Paleolithic body. So if we go back hundreds of thousands of years, maybe a million years, you'll find that
humans were on the whole, they were pretty tall, pretty skinny.
And humans kind of had the body that they needed to climb and to be able to move.
The African savannah became a kind of perfect place in which the human body could flourish.
This was the longest period in human history. We were foraging, hunting and fishing for hundreds of thousands of years.
But then about 12,000 years ago.
The biggest change that the human body undergoes is when we decide to settle and we'd call this the agricultural revolution.
And that's really a point at which access to water became easier, access to food obviously became a pull towards efficiency, removing friction from your everyday life.
The fact that your fruit tree is now in your garden as opposed to two miles away saves you a great deal of time.
It also saves you calories. It means you don't need to find as much food if you're using less food.
much food if you're using less food. Speeding things along, livestock, then horses were domesticated, so a little less running
around for us humans, and then about 5,000 years ago, the chair was invented.
But for a long time, mostly just rich and powerful people own chairs.
And the reason that people didn't have them is they had no use of them.
You know, if you're working on the land, you haven't really got much time to be sitting
around.
If we look at literature, there's little mention of chairs in the Iliad, the Odyssey,
or even the Bible.
In the early 1600s, when Shakespeare wrote King Lear, we see the word chair pop up just
four times.
But then, 150 years after that, the industrial age commenced, and so did the era of sitting.
In the mid-1800s, Charles Dickens was, of course, writing up a storm, and Sharers are
mentioned all over the place in his manuscripts.
If you look for the word chair in Bleak House, there are 187 of them.
So something had obviously hugely changed and what had changed wasn't just the fact that
it was possible for us to make more chairs, but it was the fact that there were just so many
other ways for people to use them. And one of those ways is in their work.
So in 1851, it's the first time in the history of our species
that we start to find more people living in urban centers
than are living in rural ones.
And what it meant was their lives completely changed.
And Vibar, I guess we should also point out
that simultaneously, just as chairs
and more sedentary lifestyles were becoming common,
people were also working in factories with horrible conditions, long hours surrounded by
really dangerous machines and chemicals.
A very dangerous machine is very dangerous chemicals, and if you were injured at work, it was on
you, there was no legal recourse.
So it's incredibly dangerous. But also what it
meant was people were exhausted. They didn't have access to the variety of food that they had access to
in rural communities. So people that worked in factories, they worked extremely long hours,
but they were often working to buy the bread for the following day. So children were never outside.
So they would walk a few hundred meters to work, then
they'd be inside a factory for 12 hours or 14 hours or longer. And then they'd go back
home and then they'd sleep and then they'd come back to their shift. So it meant that
children shrank, humans shrank quite substantially. The average 16-year-old was at least a foot shorter
than today.
As the industrial age progressed, we got electricity and gas, and life became more efficient.
But many of our daily chores still required a lot of time and hard work.
Take cleaning a rug, for example.
You would move the furniture from the rug.
You'd then roll up the rug, you'd sling the rug over your shoulder, you'd sling the rug over the washing line.
And then with a beater, you'd whack the bejesus out
of the rug for a good 10 or 15 minutes.
And then you'd then reverse the process.
You'd roll back up the rug, you'd go back in the house,
and roll it back on the floor, straighten it up,
then move the furniture back onto the rug. Now, to do that, you're talking about a calorie burn of about two to three hundred calories.
But then, cleaning a rug got way easier with motorized appliances.
You have the upright vacuum cleaner. Now, when I was a kid, these were quite common,
and they weighed a ton. So even with an upright electric vacuum
cleaning, you're still talking about a good sort of 100 calorie burn to do a rug.
Now we have a RoboVac. You go, beep, beep, beep on your phone and the RoboVac leaves it's
home and it starts and it goes to work cleaning the rug. And that's just one aspect of efficiency in modern life.
And if you think about, basically everything that you do
is now a more efficient version.
And we're now at the point where we don't really know
what to do with ourselves.
In the 1840s, it was definitely less than 1%
of the working population was doing
sedentary work. But if you fast forward through to today in the US, 85% of the
population has a sedentary job. I mean clearly there are wonderful things that
we have now. Science, healthcare, medicine, we are living longer than ever, but it seems like you're pointing to a quiet problem that's not going away.
Well, the quiet problem is things like I sound kind of croaky today and it's because I have
asthma and hay fever and the tree pollen has decided to dump its layered all in one afternoon,
it seems. Hay fever doesn't exist until the 19th century.
It literally does not exist until the 19th century.
Most of the diseases that you can think of
as they are connected in one way or another
with a diminution of movement
or in a move away from rural environments to urban ones.
And our bodies are always trying to be the best bodies
that they can be for us.
And modern life is really, really confusing them.
So it's not so much that we're changing through evolution but we're changing our bodies and what
they're able to do through our habits. We used to die because we couldn't find food and now we
die because we eat too much and we can't move. So even when we think about seven-year-old work from the 19th century and compare it to now,
we're still not talking about the same things because of technology. So 40% of workers in the UK
walk briskly for less than 10 minutes a month. Wow and it's technology that has taken all of that
movement from us.
This era we're living in has been labeled the Anthropocene, as human activity has had a bigger and bigger impact on the planet.
And in your book, you say that we have Anthropocene bodies.
Yeah, and the idea of an Anthropocene body is simply one which is being remade and reshaped
by the Anthropocene environment.
So the screens that we have in our hand,
they're stopping us from going outside
and when we don't go outside,
we're not around green spaces,
we're not getting vitamin D.
And that's really the damage that's being done.
That's Vi-Bar Kreegan Reed.
He's a professor of English and environmental humanities at the University of Kent.
His latest book is Primate Change. How the world we made is remaking us.
In a minute, ideas for getting your Anthropocene body to use its tools better.
better. Okay, so we just had a speed history lesson about how our bodies have changed through the ages, which brings us to now. So some of the latest data suggests that the
average adult spends 11 hours per day engaging in some form of technology. And what are
we typically doing when we're consuming technology?
Most likely not moving.
Keith Diaz is an associate professor of behavioral medicine at Columbia
University's Medical Center.
Unfortunately, we live in a world that the default position is sitting.
And we see movement now as often an inconvenience.
Like, oh no, I left my charger upstairs for my phone.
Oh, I gotta go upstairs.
Okay, maybe you're thinking, well, yeah,
I sit around scrolling on my phone a lot,
but at least I run or I go to the gym in the morning.
Keith says it's still a problem.
It's not enough to just check off that exercise box for your day and think that you're done
and you don't have to move the rest of the day.
And there's been studies done in the Netherlands where they had people sit for three days straight
and then they had them come back and sit another three days but exercise for one hour in the
morning.
And what they found was that that one hour of exercise in the morning before they sat
for the rest of the day was not enough to offset the health harms of sitting.
I know, it feels so unfair that even if you're working out, it's not enough.
But I bet some of you are also thinking,
whoo, good thing I got that standing desk.
I'm not so sure.
And unfortunately, my opinion is that the standing desk manufacturers have capitalized on the news headlines that sitting as the news smoking and helped convince many consumers that standing is a healthier alternative to sitting.
But if you look at the scientific evidence, it is not convincing. The evidence is convincing that long periods of sitting increase your risk for a lot of
chronic diseases.
Maybe not today, maybe not tomorrow, but eventually you may get diabetes, many forms of cancer,
heart disease, dementia, and sitting can also affect your mental health and your mood, and ultimately decreases your longevity.
But so many of us do work that requires sitting at a computer a lot.
We don't have a choice.
So what do we do about it?
How do we prevent those chronic health conditions?
Or at the very least, how can we avoid feeling just gross like I do
at the end of a long day of typing, zooming and tapping?
Well, this is where Keith's findings come in.
If people are going to change their behaviors and tackle this sitting problem that we have,
they need targets to shoot for, they need guidance on what do I do? And so really the goal of my lab is to try to figure out
what's the least amount of movement that you can do
to offset the harms of sitting.
And so that's really what we're trying to do
is try to figure out how little can we get away with
to offset the harms.
So one of the studies that you've done
went kind of viral as they say over the last year
It was it was a pretty groundbreaking landmark study. Can you describe it? Yeah, so
Straight forward answer is to offset the harms of sitting
You should move every half hour for five minutes
The main take-home message was that folks who moved every half hour for five minutes
lowered their blood sugar spikes after eating by 60%.
Wow.
And then it also lowered their blood pressure by four to five points.
Can I ask those five minute movement breaks?
Are people getting up and like doing jumping jacks?
Or what are they doing?
This was light walking 2.0 miles per hour on a treadmill.
Oh, not fast at all.
No, it's a stroll.
We wanted something relatively light
that everybody could do.
And actually, those folks who moved every half hour,
they had lower fatigue levels.
They felt more energized and in general had a better mood.
And why I think this is so important is, you know, we spend our time trying to convince the workforce and employers
that you should allow your employees to take breaks to move.
And it seems counterintuitive to them like,, no, I need them working, I need them productive.
That actually, a employee who's in a better mood,
who's feeling less fatigued
and feeling more energized is a more productive employee.
So I was reading about your work
and I love that there's a prescription.
Like, do this and you're not gonna kill yourself
from sitting on your butt all day.
So I reached out to you and
I was like, what if we could invite our listeners to try out your findings in the wild, so to
speak. And I was pleased that you were intrigued. What intrigued you, piece?
Yeah. I mean, that's a, that's the thing with these, you know, lab-based studies that they're not real world.
I can give you a scientific answer of what you should do about it, but can anybody actually do it?
If not, then it's pointless.
Okay, so we, NPR, are partnering with you and Columbia to do a study.
With listeners, should they choose to join.
Let's lay out the plan.
Yeah, so the plan is that we're going to ask you to sign up
and commit to doing movement breaks.
For three weeks.
Yes, and we're going to try a couple different doses.
We want to see which ones work and which ones don't.
We're going to send you some text messages over the course of the month and just check in
and see if you're taking the breaks.
If you are, we want to know when are you taking them, what's making you successful in taking the breaks.
And if you're not, we just want to understand why not.
And understand what are your barriers?
But we're also interested in seeing, does this change how you feel?
Does this change how you feel? Does this change your mood?
Can we be more specific about what counts as an exercise snack?
Yeah, so first off, standing doesn't count.
So we want you moving.
And so our ask here is that you walk either in place,
if that's all you can do, you can get a stepper and walk on a stepper
or just walk throughout your workplace, throughout your home. Okay, so shuffling side to side
is perfectly acceptable. I'm picturing what might be not acceptable is like you're on the Zoom call with your colleagues and
you're the one bopping up and down on the screen.
But like that's what we're talking about here, right Keith?
We're talking about a mind set shift.
Yeah.
Well, I mean, ultimately what you're getting at is we have to, it's a culture change.
There is this peer social element that we have to break if's a culture change. There is this peer social element
that we have to break
if we're gonna actually get this ingrained
in everybody's lifestyles.
Okay, last question.
What if it works?
Like, what's your biggest fantasy about our experiment?
Yeah, if this works with our experiment,
this is just fuel for us to then go and say,
look, people can do this. And that's gonna help us to then go and say look people can do this and
That's gonna help us to start paving the way towards system level change and that's for me where I want to take this
Okay, so if you are ready to give this project a try and help out Keith Diaz and his team at Columbia University Medical Center
Go to npr.org slash body electric to find out more.
But here's the thing, you only have until Sunday,
October 8th at 11.59 p.m. Eastern to sign up
because that is when the study kicks off.
If you're listening after the deadline, that's okay.
Try it on your own. Follow along.
Woohoo!
Okay, I am so excited about this.
I hope you are too.
Please don't be intimidated to take part,
recruit your co-workers, your friends,
your family, your neighbors to try it with you.
If walking isn't an option,
keys in his team will have alternative exercises too.
And remember, like, you can't fail at this.
Whether or not you stick with moving every half hour
or whatever you get assigned,
all of it is vital information for these researchers.
So, do it for science, or just do it for yourself.
Go to npr.org slash body electric.
Please let us know about your experience.
Email us send us a voice memo at bodyelectricatnpr.org.
You might hear yourself on the series.
You can also talk to me on Instagram.
I'm at Manouche Z and Facebook, we're at Ted Radio Hour.
Next time on Body Electric, the rise of the personal computer and the consideration that
went into designing it for the human body.
Not.
I have not seen any evidence that anyone did any kind of usability or human factors analysis.
And the design of these things,
and it's absolutely obvious that they didn't.
That's episode two, find it in your Ted Radio Hour feed
or at nbr.org slash body electric plus subscribers.
You get all these episodes ad-free
and extra bonus episodes to enhance your body electric experience.
Okay, feuds, finally time for the credits, and you know what, actually, I'm gonna read
them shuffling side to side because might as well start.
Body Electric was produced by Katie Montellione and edited by Sanna's Meschkin Poor with
production support from Rachel Faulkner White, original music by David Herman.
Our audio engineer was Patrick Murray.
This series was made possible by Anya Grundman, Lauren Gonzalez, Lindsey McKenna, with
help from Yolanda Sangueni, Beth Donovan, Irene Ngucci, Julia Karnie, and Fiona Girin.
Special thanks to Shavano Connor for her brain power too. I'm Manusha Zomorodi and you have been listening to Body Electric from NPR.
Hey, hey prime members, you can listen to 10% happier early and add free on Amazon music.
Download the Amazon Music app today.
Or you can listen early and add free with Wondery Plus
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