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(music
throughout) Imagine if you were an alien

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who was visiting the Earth
for the first time from some other galaxy.

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Imagine only visiting the United States
and never visiting any other part

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of the Earth's surface.

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That's essentially what we've done
with the Apollo missions, really been able

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to do wonderful and groundbreaking science
with the samples collected

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during the Apollo missions.

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But again, we visited only a very small
part of the lunar surface.

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The way that I think about it
is it's the equivalent of,

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you know, landing on Earth
and getting rocks from Kansas.

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It would give us insight
into one particular location on the earth,

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but not at all the diversity of what

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we see on the Earth,
what we know is present on the Earth.

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So the ability to go to a different site,
a different location, get different

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samples, will just enrich what we've
already learned from our Apollo samples.

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There's
a lot left to be learned about the moon,

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and it starts with the South Pole,

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Artemis astronauts will fulfill

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a different mission
in a unique environment.

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While the Apollo astronauts who visited
the moon's surface between 1969

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and 1972 landed near the equator.

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Artemis Astronauts will venture
to the moon's South Pole region

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frigid, rugged
and with unique light and darkness,

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conditions that make it an ideal location
for exploration.

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The South Pole region is also home
to the rim of the moon's largest,

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oldest and deepest crater
called South Pole Aitken.

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It takes up almost a quarter of the moon
and is so deep it

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exposes portions of the moon's interior.

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Yeah, the South Pole is it's fascinating.

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There are some very unique types of rocks
that are at the South Pole

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that will allow us to understand

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the entire history, not just of the moon,
but potentially of the solar system

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very early on in lunar history.

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We think that there was this
increased period or very intense

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period of huge material
hitting the surface of the moon, creating

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these really large craters or

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giant holes,
which we actually call basins.

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So getting a sample of impact
melt from this basin

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would kind of help us bracket
that early period of time.

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The Moon's South Pole region has resources
that are vital for long term exploration

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because the moon is barely tilted
relative to the sun.

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The sun hovers over the horizon
at the South Pole.

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Imagine a flashlight
turned on laying on a table.

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That's how the sun illuminates
the South Pole.

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Light at the South Pole
strikes at such a low angle,

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it brushes only areas of higher elevation,
such as crater rims.

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These locations have sunlight for extended
periods of time to harness for power.

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At the same time, the bottoms of some deep

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craters are shrouded in constant darkness.

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Scientists have measured

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the coldest temperatures
in the solar system inside these craters,

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which have become known as perfect environments for preserving water for eons.

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Over time,

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there is individual molecules of water
and carbon dioxide

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and other gases that actually bounce
around the surface of the moon.

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And when they get to one of these
cold spots, they actually get stuck.

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Though we call those places cold traps.

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And if you do that for millions
and even billions of years, you can

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actually build up a pretty significant
deposit of water and other ices.

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From an exploration perspective,
if we can understand

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just how much water there is

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and where it is and how to get it
out of the regolith of the moon,

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we can turn it into really important
things like drinking water

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for astronauts and even rocket fuel
to take them back home.

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So really understanding these resources
and how to use them

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is one of the objectives
of the Artemis program

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and it's what makes the South
Pole of the moon so exciting.

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We know the moon in incredible detail,

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thanks in large part to NASA's
Lunar Reconnaissance Orbiter, or LRO.

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LRO has been circling the moon since 2009.

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It's the longest lived spacecraft there.

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Through tens of thousands of orbits
and data from seven instruments,

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LRO has mapped the moon's temperature,
geology, radiation environment

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and is providing insight
on how the moon is changing over

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time.

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LRO is led by Dr.

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Noah Petro,
a planetary geologist at NASA's

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Goddard Space Flight Center.

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LRO is this incredible machine.

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It was launched in 2009 as the opportunity
to go back to the moon, to create this

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three dimensional, high resolution,
high definition atlas of the Moon.

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Where are there safe landing
sites for human and robotic explorers?

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So what LRO is doing
is really giving us the tools,

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the material, the data
we need to make those missions successful.

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For many

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years, LRO's elliptical orbit was closest
to the moon during the spacecraft's

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pass over the South Pole.

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So scientists have more information
about the South Pole region

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than any other region of the moon.

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We know that that we can do

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more and build upon the legacy of Apollo.

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But to do that,
we needed a higher resolution dataset.

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So we wanted to know
where the hazards were.

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We wanted to know where the geologic
features were that we want to go explore.

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And so LRO has created that database.

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Incidentally, the LRO data
volume is now over 1.3 petabytes.

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It's the largest volume of data
that NASA has ever collected

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from any planetary body.

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It's remarkable.

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And so

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what we've done now in support of Artemis.

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It's a part of other NASA's missions
to the moon as we created special maps.

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We share them with the public
and we share them

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with the various engineers and scientists
who are going to help enact and make

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Artemis a reality.

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You know,

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this is basically a Google
Maps of the moon

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taken from pictures from the Lunar
Reconnaissance Orbiter Camera.

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And you can just zoom in and see a five
meter boulder on the surface of the moon.

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It's just crazy.

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I could spend all day
and I have spent all day sometimes

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just browsing around different parts
of the moon, just looking up at the rocks.

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This wealth of information
will make it easier

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to find ideal locations for NASA Basecamp
and to quickly identify

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scientifically interesting areas
to visit nearby.

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So it's my my real belief
that we have an opportunity with Artemis

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to do something different than Apollo.

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We build on Apollo, we learn from Apollo,
but we want to expand

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what Apollo was able to do and build this
this presence on the moon

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that is more than just three days, more
than just six individual missions,

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but a much larger program
that eventually will result in the ability

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to go on to Mars.

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Mars is is quite a bit longer away
from our own planet.

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Then, of course, the moon is.

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It takes several months
in some cases to get to Mars.

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And it's therefore
going to be really critical

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when we have astronauts
walking around on the surface of Mars

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to be able to stay there
for longer periods of time.

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You've just spent six or so months
to get there.

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You want to really be able
to explore the surface around you

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and having the ability
to live off the land and know how to

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conduct exploration for longer
periods of time is going to be critical

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for Martian exploration.

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And lessons learned
for that sustainable type of exploration

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start right here at the moon.

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So there's still so much for us to learn
from going back

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to the moon from a scientific perspective,
that it's a no brainer in my head.

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But with Mars in the horizon

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as our kind of end goal
this is an important step for us to take.

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And then also,
just kind of from a human aspect,

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we all have this kind of intrinsic desire
to explore.

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I think it's it's in all of us
and certainly in us as a society.

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And so I think setting our sights
on something

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and accomplishing
this goal together is really important

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just for international relations, for,
you know, just coming together

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as a human, humankind,
you know, the human spirit.

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I think that that's a piece of what
we're doing that we can't ignore as well.

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I have three kids aged ten, six and two.

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I talk about space often with them.

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The great thing
that my parents did for me.

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It was, let me find my path.

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I also look at my daughter and I, I think,

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okay Amelia, you know, she keeps saying
she wants to be a firefighter

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and a construction worker
and an astronaut.

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I said, Amelia, you can do all three
and be an astronaut.

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Well, I mean, when you're an astronaut,
you'll learn how to fight a fire in space.

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You get to learn how to build something.
You've got to do all those things.

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What they'll become.

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I'm so excited to find out.

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I have no idea what they're going to.

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They're going to end up
gravitating towards.

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So why is the moon
my favorite body to study?

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I think growing up, you can
you know, you can always

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see it in the sky.

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You can see some beautiful stars.

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And maybe Mars
or Jupiter is like small little dots,

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but the moon is just there
in all its glory.

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It's like our nearest
and dearest neighbor.

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And you can even even

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with the naked eye, you could start
picking out features on the moon.

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I felt I was really cool.

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You know, this is thousands of miles away

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and you can still kind of be a geologist
from the ground if you want to.

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And I felt that's really cool.

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And that's why I always
wanted to study the moon.

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Just seeing

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people walk on the moon
on this foreign planetary body.

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You know, looking at images
like the one behind me here is the thing

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that always blows my mind.

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I will say with my two year old,
what I have noticed recently

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and this is wonderful,
is that when he sees the moon,

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we're out for a walk, we're driving around
or outside a window of a moon moon.

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And just the fact that he can look up
and see the moon moon,

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that makes me so happy.