James Webb’s Greatest Discoveries: Exploring the Universe’s Secrets

Episode Transcript
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(00:00):
Okay, so imagine this.

(00:01):
You're out camping miles from any city lights
and you look up at the night sky,
you see the Milky Way, just this hazy band
stretching across the darkness for centuries.
That was all we had, just a blurry glimpse
of the vast universe.
But then we got Hubble and it was like,
it pierced through the fog, gave us sharper images.

(00:22):
But now we've got something even better.
We have the James Webb Space Telescope.
It's amazing.
It's like a time machine,
letting us peek into the universe's baby pictures.
We're seeing galaxies as they were billions of years ago,
stars being born, stars dying,
and all sorts of cosmic events we never even imagined.

(00:43):
Absolutely mind blowing.
It is incredible.
Welcome to Cosmos in a Pod,
the Space and Astronomy series.
Please like, comment, share, and subscribe.
So one of the things that's really fascinating
about the James Webb Space Telescope
is its infrared vision.
It allows us to see through those giant clouds
of gas and dust that normally obscure our view.
Oh yeah.
It's like having X-ray vision for the universe.

(01:04):
Exactly.
And one of the first things that JWST zoomed in on
was something pretty familiar.
In the Pillars of Creation.
Yeah, beautiful.
In the Eagle Nebula.
You probably remember that iconic image from Hubble, right?
Oh, of course.
Huge columns of gas and dust.
Look almost like giant cosmic fingers
reaching out into space.

(01:24):
So Hubble gave us this beautiful view, but.
Jada Bezat took it a step further.
It saw through the dust,
revealed the stellar nurseries hidden inside those pillars.
Just imagine seeing newborn stars just igniting,
surrounded by these swirling clouds of gas and dust.
So we're actually seeing star formation in action.
It's like watching a cosmic fireworks display,

(01:45):
but in slow motion.
Yeah, exactly.
Speaking of fireworks,
let's talk about the Southern Ring Nebula.
This one, it looks like a giant glowing smoke ring.
Yeah, it's breathtaking, isn't it?
The Southern Ring Nebula
really shows us the death of a star.
A star runs out of fuel and it sheds its outer layers,
creating these expanding shells of gas.

(02:06):
But what's really interesting is what JWST uncovered.
Yeah, what's that?
There isn't just one star at the center of this nebula,
there are two.
A binary star system.
Hold on, so it's not just one star
having a cosmic tantrum, there are two.
Yeah.
How does that change things?
Well, it means that the dynamics are much more complex
than we initially thought.

(02:27):
The gravitational interaction between these two stars
as one is dying is what's creating these intricate
and mesmerizing shapes.
It helps us understand how these nebulas form
and evolve over time,
adds another layer to the story of stellar death.
So it's like a cosmic dance,
a final waltz before one of the partners fades away.
I like that, yeah.
It's beautiful and kind of sad at the same time.

(02:49):
But let's shift gears for a second.
Let's bring things a little closer to home.
Okay.
JWST has given us some incredible new views
of our own solar system, particularly Saturn.
Ah, Saturn.
With its majestic rings, it's always been a showstopper.
But what's really remarkable about JWST's observations
is the level of detail we're seeing.
We're seeing the rings with a clarity never before seen,

(03:10):
individual gaps and divisions, even faint outer rings
that were barely visible before.
I bet it makes those old textbook images
look like blurry Polaroids.
Oh, yeah.
And it's not just the rings, right?
JWST has captured images of some of Saturn's moons too,
including Enceladus.
Enceladus.
Which is super exciting because-
Well, Enceladus is one of the most promising places

(03:31):
in our solar system to search for life beyond Earth.
We know it has a subsurface ocean,
and JWST can help us study the plumes of water vapor
that erupt from its south polar region.
It's like a giant cosmic sprinkler,
just spraying clues about possible life into space.
Yeah.
Okay, now let's zoom out again.
Way out, billions of light years away
to a galaxy cluster called SMACS0723.

(03:55):
SMACS0723, that's where JWST gave us its deep field image,
the deepest, sharpest infrared view
of the distant universe ever captured.
In this image, we're seeing the light from galaxies
that existed over 13 billion years ago.
So we're talking about seeing galaxies
when the universe was practically a newborn.
How is that even possible?
It's all thanks to a phenomenon called gravitational lensing.

(04:18):
The massive gravity of the galaxy cluster
in the foreground acts like a giant cosmic lens,
bending and magnifying the light
from those distant galaxies behind it.
So it's like the universe is giving us a helping hand,
a magnifying glass to see its own baby pictures.
Exactly.
That's amazing.
But tell me, what can we actually learn
from these faint, distorted images

(04:39):
of those ancient galaxies?
They offer a glimpse into a time
when the universe was very different.
These early galaxies are much smaller and bluer
than the galaxies we see today,
and studying them helps us understand how galaxies form
and evolve over cosmic timescales.
It's like piecing together an evolutionary history,
but for galaxies instead of animals.
Precisely.
Fascinating.

(05:00):
Okay, let's talk about the dramatic demise of stars.
JWST has captured some amazing images of Cassiopeia A,
the remnant of a supernova that exploded
about 340 years ago.
Cassiopeia A is like a cosmic crime scene,
the aftermath of a stellar explosion.
And JWST's infrared vision lets us see
through the debris and analyze the different elements

(05:21):
that were forged in the heart of that dying star.
The images are absolutely spectacular.
Vibrant shades of pink and orange,
representing elements like sulfur and oxygen,
almost artistic like a cosmic abstract painting.
They are beautiful.
But there's this one feature that caught my eye.
Baby Cass A, what is that exactly?
Baby Cass A is this fascinating region

(05:42):
within the supernova remnant.
It's a dense clump of dust that's being illuminated
by high energy photons from the surrounding explosion.
Dust?
Why is dust so interesting?
I mean, here on Earth, we try to get rid of dust.
Well, this isn't the dust bunnies you find under your couch.
Oh, okay.
This cosmic dust is the raw material
for future star and planet formation.
It's made up of elements like carbon, silicon, and oxygen,

(06:05):
you know, the building blocks of everything we see around us.
So even in death, a star provides the seeds for new life.
Exactly, it's a beautiful cosmic cycle.
It is, amazing.
All right, from a supernova remnant to a distant ice giant,
let's turn our attention now to Neptune,
the eighth planet in our solar system.
Okay.
What kind of fresh perspective

(06:25):
has JWST given us on this icy world?
Well, for starters, it's given us back Neptune's rings.
What do you mean?
For decades, they were barely visible,
but JWST's infrared vision cuts through the atmospheric haze
and shows us those rings in stunning detail.
Wow, it's like Neptune got a cosmic makeover,
a ring restoration.
Yeah.
But it's not just about looks, right?

(06:47):
No, of course not.
JWST is also revealing new details
about Neptune's atmosphere,
showing us dynamic weather patterns,
high altitude methane clouds,
even a glowing equatorial band
that suggests there's active atmospheric circulation.
So even though it's billions of miles away
and incredibly cold,
Neptune is a surprisingly lively place.
It is.

(07:07):
And let's not forget about Triton,
Neptune's largest moon.
Ah, Triton.
One of the most intriguing moons in our solar system,
it's a captured Kuiper belt object,
it's geologically active,
and has a retrograde orbit,
meaning it orbits Neptune
in the opposite direction of Neptune's rotation.
Okay, so that's pretty rebellious for a moon.
It is.
What's JWST telling us about Triton?

(07:28):
One of the most striking things
is that in JWST's infrared view,
Triton actually outshines Neptune.
Wait, the moon outshines the planet.
How is that possible?
Triton's surface is covered in nitrogen ice,
which reflects infrared light very efficiently.
And because it's tidally locked to Neptune,
always showing the same face,
we get a very bright signal from that icy surface.

(07:51):
It's like Triton is putting on a cosmic light show,
just trying to steal the spotlight from its parent planet.
Yeah.
Now, buckle up,
because we're about to embark
on the most mind-boggling part of our journey yet.
We're going to the very edge of the observable universe,
to a star named Arendelle.
Arendelle, the most distant star we've ever observed,

(08:13):
located a mind-boggling 13 billion light years away,
meaning the light we're seeing from it
left the star when the universe
was less than a billion years old.
13 billion light years.
That's like looking back in time
to when the universe was practically a baby.
How on earth, or rather, how in space
did we manage to see something that far away?
You guessed it.
Gravitational lensing comes to the rescue again.

(08:34):
In this case, the gravity of a massive galaxy cluster
between us and Arendelle acts like a cosmic zoom lens,
magnifying the star's light and making it visible to JWST.
Wow.
So we got a lucky break.
A cosmic alignment that lets us see
this incredibly faint and distant star.
What makes Arendelle so special,
apart from its record-breaking distance?

(08:57):
Arendelle might be a population third star,
one of the first stars to form after the Big Bang.
These stars are thought to be massive, hot,
and composed almost entirely of hydrogen and helium,
the primordial elements forged in the Big Bang.
A population three star.
I remember learning about those in astronomy class.
They're like the dinosaurs of the stellar world,
the first generation of stars.
Yeah.

(09:17):
What a discovery.
It's huge.
If confirmed, studying Arendelle would
give us unprecedented insight into the conditions
of the early universe and how the first stars influenced
the formation of galaxies and the elements we see today.
It's like having a time capsule from the dawn of the cosmos.
This is mind-blowing stuff.
It's incredible to think that we're just
at the beginning of JWST's journey,

(09:38):
and it's already rewriting our understanding of the universe.
What a time to be alive and star-dazing.
We'll be back with more incredible discoveries from JWST
after a quick break.
Welcome back to Cosmos in a Pod.
We're diving even deeper into the incredible discoveries made
by the James Webb Space Telescope.
Yeah, so far we've really explored everything

(10:00):
from those star nurseries to those supernova remnants.
We even got a glimpse of the most distant star ever
observed.
It's been an amazing journey, and we're
really just getting started.
Oh, absolutely.
There's so much more to come.
So let's step back for a second and think
about the bigger picture.
Yeah.
What did these findings tell us about the universe?
Where do we go from here?
OK, yeah, big picture time.

(10:20):
I think one of the most significant takeaways
from JWST so far is the sheer diversity of objects
and phenomena in the universe.
Yeah, we saw that firsthand in all those images, right?
From those nebulae to the galaxies to individual stars,
each one with its own unique story.
Absolutely, and I think that really speaks
to the incredible complexity of the universe

(10:40):
and how much we still don't know.
It's pretty humbling, you know?
It is.
Makes you realize how much there still is to explore out there.
Another key takeaway.
I think it's got to be the importance of infrared astronomy.
Oh, definitely.
JWST's infrared vision, it allows
it to see through those dense clouds of dust
that block visible light, letting
it observe those objects that were previously hidden.

(11:03):
That's completely revolutionized our understanding
of star formation, how galaxies evolve, even the search
for exoplanets.
It's like having a whole new set of eyes on the universe.
But does that mean that JWST is like the be-all and end-all
of space telescopes?
I mean, it's a phenomenal instrument.
There's no doubt about it.
But it's just one tool in our cosmic toolbox.
No single telescope can do it all.

(11:25):
And even JWST has its limitations.
Oh, OK, like what?
Well, it's primarily an infrared telescope.
So it's not really as well suited for observing
those objects that emit mostly invisible light.
And while its reach is impressive,
JWST still has a finite lifespan.
Right, it's got a projected mission of about 10 years.
So what happens after that?
What's next for space exploration?

(11:48):
Well, the good news is there's a whole new generation of space
telescopes that's in development,
each one designed to push the boundaries of our knowledge
even further.
Really?
Tell me more.
So for instance, there's the Nancy Grace Roman Space
Telescope.
It's set to launch in the mid-2020s.
It's designed to be this wide-field infrared survey
telescope.

(12:08):
Yeah, I've heard of that one.
It's going to have a much larger field of view than JWST.
It's going to allow it to map these vast areas of the sky
and study billions of galaxies.
Exactly.
And then there's the Large Ultraviolet Optical Infrared
Surveyor, or LVOR for short, which
is still in the concept phase.
LVOR, that's a mouthful.
What's so special about that one?

(12:28):
Well, if it's funded and built, it
would be a truly massive space telescope,
like with a mirror several times larger than JWST's.
Wow, that's huge.
What can we do with a telescope that big?
Well, LVOR would be able to observe
an ultraviolet, visible, and infrared light.
So it'd give us this comprehensive view
of the universe across all those multiple wavelengths.

(12:50):
So it's like the Swiss Army knife of space telescopes.
Yeah, you could say that.
And with its sensitivity, it could potentially even
image exoplanets directly, like even Earth-sized ones.
Now, that's exciting.
Imagine actually seeing another Earth-like planet out there.
I know.
It's mind-boggling to think about the discoveries that
await us with these next generation telescopes.

(13:11):
It really is.
And I think those discoveries will undoubtedly
raise new questions, leading to even more advanced telescopes
in the future.
It's this endless cycle of exploration and discovery
driven by human curiosity.
Yeah, it's that curiosity that drives
us to push the boundaries of knowledge
and search for those answers to the biggest
questions about the universe and our place in it.

(13:31):
Well said.
We've covered a lot of ground in this part,
but really only scratched the surface
of what JWST and future telescopes have to offer.
Yeah, for sure.
In the final part of our deep dive,
we're going to explore some of the more philosophical
implications of all these discoveries,
kind of pondering that vastness of the universe
and what it means to be human in a cosmos filled
with these awe-inspiring wonders.

(13:52):
OK, sounds good.
So join us for the final part of our deep dive
into the universe with the James Webb Space Telescope.
Welcome back to Cosmos in a Pod for the final part
of our deep dive into the universe with the James Webb
Space Telescope.
Yeah, it's really been an incredible journey, hasn't it?
We've explored those incredible star births

(14:13):
and those dramatic deaths and those swirling clouds
of nebulae, even those distant galaxies in their infancy.
It really makes you think about the vastness of it all.
You look at those images and knowing that light
has traveled billions of years to reach us,
it's almost overwhelming to think about.
Yeah, yeah, it is.
It's that feeling of awe and wonder.
And I think that's at the heart of astronomy

(14:34):
and really our humanity.
It's like this desire we have to understand
our place in the universe, to unravel
the mystery of where we came from and where we're going.
And with JWST, it feels like we're
getting closer than ever to answering those questions.
It's not just about seeing further those sharper images.
It's about what those images reveal,
about the processes that govern the whole universe.

(14:57):
One thing that's really struck me is how interconnected
everything is.
We see the death of a star leading
to the birth of new stars and planets.
We see galaxies colliding and merging,
shaping each other over billions of years.
This is a giant cosmic web, right?
Exactly.
It's all connected, everything influencing everything else,
even across these unimaginable distances.

(15:18):
And that connection, it extends to us, too.
We're not just passive observers of this cosmic dance.
We're participating in it.
The elements that make up our bodies,
the very atoms that form our planet,
we're all forged in the hearts of stars.
We really are made of stardust.
We are.
Wow.
It makes you realize we're not separate from the universe
at all.
We're part of it.
Right.
And that's a realization that I think

(15:39):
can be both humbling and empowering.
Humbling when you think about our place in this vast
and ancient cosmos, but empowering
because it really highlights our connection
to everything around us.
So where do we go from here?
We've seen what JWST is capable of.
We have these incredible new telescopes coming up
on the horizon.
But what are the big questions that we still need to answer?

(16:02):
Well, I think one of the biggest mysteries that's still out
there is the nature of dark matter and dark energy.
We know they exist.
We see their influence on the universe.
But we still don't know what they are.
It's like something out of science fiction.
But they're real.
They really hold the key to understanding
how this whole universe evolves.
Yeah, absolutely.
And then there's that question of life beyond Earth.

(16:22):
Is our planet the only one that's teaming with life?
Or are there other worlds out there?
Perhaps even other civilizations just
waiting to be discovered.
That's a question that has fascinated us for centuries.
With telescopes like JWST and the ones coming after it,
I think we're getting closer to finding an answer.
Yeah, and that search for life, it's
not just about finding aliens.

(16:43):
It's about understanding the conditions that even make
life possible in the first place.
Piecing together the puzzle of where
we come from and our place in the cosmic steam of things.
Yeah, it's a journey of discovery,
both outward into that vastness of space,
but also inward exploring our own place within all of that.
And I think it's a journey that really doesn't have an end

(17:05):
point.
Every answer we find leads to new questions,
pushing us further on that path of exploration
and understanding.
And as we keep going down that path,
telescopes like JWST will be our guide, showing us the way,
revealing new wonders, and challenging
us to keep expanding those horizons, right?
Absolutely.
So to everyone listening, keep looking up.

(17:26):
Keep asking those questions.
Never lose that sense of wonder.
The universe is full of secrets that
are waiting to be uncovered.
Who knows what incredible discoveries are still ahead of us.
Yeah, I can't wait to see.
And that brings us to the end of our deep dive
into the universe with the James Webb Space Telescope.
We hope you've enjoyed this exploration as much as we have.
Be sure to follow Cosmos in a pod.
And subscribe to our YouTube channel

(17:47):
for more cosmic adventures.
Until next time, keep exploring.

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.css-14f5ked{margin:0;word-break:break-word;display:-webkit-box;-webkit-box-orient:vertical;box-orient:vertical;-webkit-line-clamp:2;overflow:hidden;}James Webb’s Greatest Discoveries: Exploring the Universe’s Secrets

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