WEBVTT FILE

1
00:00:11.111 --> 00:00:11.745
Absolutely.

2
00:00:11.745 --> 00:00:15.181
First off, I can say that I'm incredibly excited
that we're going to be launching

3
00:00:15.181 --> 00:00:16.950
this particular satellite.

4
00:00:16.950 --> 00:00:20.954
This satellite is in a series of satellites,
which are the most advanced

5
00:00:20.954 --> 00:00:24.524
satellites that we have in geostationary orbit
at this time.

6
00:00:25.125 --> 00:00:29.362
These satellites provide weather information
not only to meteorologists

7
00:00:29.362 --> 00:00:32.899
and the weather community,
but also to every single person.

8
00:00:33.633 --> 00:00:37.971
If you use a weather app
and you're using GOES data and we're

9
00:00:37.971 --> 00:00:41.641
launching, again, the most advanced version
of that particular satellite

10
00:00:42.509 --> 00:00:43.343
today.

11
00:00:50.917 --> 00:00:52.419
A great question.

12
00:00:52.419 --> 00:00:54.521
When we say geostationary,
what does that really mean?

13
00:00:54.988 --> 00:00:58.992
Well, typically, I try to explain to people,
if you're like a superhero, maybe you can fly

14
00:00:58.992 --> 00:01:03.696
really high into the sky up into orbit
and you have the ability to look down.

15
00:01:03.997 --> 00:01:07.567
Well, geostationary means
you're looking down at the planet,

16
00:01:07.567 --> 00:01:10.270
but you're also rotating as fast as a planet
rotates.

17
00:01:10.303 --> 00:01:15.241
So you're seeing the exact same spot
from where you are high in the sky or in orbit.

18
00:01:15.642 --> 00:01:18.111
And what that provides you is a clear view

19
00:01:18.311 --> 00:01:20.847
of all the weather that's happening
well below you.

20
00:01:21.147 --> 00:01:23.917
And we have that capability
now, again, with the most advanced

21
00:01:24.584 --> 00:01:26.853
instruments that are able to view our planet.

22
00:01:27.654 --> 00:01:31.324
One of the reasons I'm so excited about it
is it provides us with data

23
00:01:31.558 --> 00:01:35.962
that goes into weather forecast models
and it also provides us with a great view

24
00:01:35.962 --> 00:01:40.834
of incredible weather situations,
whether they're going to be good or bad.

25
00:01:40.834 --> 00:01:44.771
The example would be during hurricane season,
when we see hurricanes

26
00:01:44.771 --> 00:01:48.308
coming in, coming from the actual ocean
or developing

27
00:01:48.875 --> 00:01:51.311
out over the ocean when those storms

28
00:01:51.311 --> 00:01:54.747
develop, and more importantly,
as they track to the west,

29
00:01:54.747 --> 00:01:58.184
we're able to watch them throughout the entire
evolution of their lifecycle.

30
00:02:06.226 --> 00:02:07.660
So that pressure wave

31
00:02:07.660 --> 00:02:11.431
from the from the Tongan eruption was spectacular.

32
00:02:11.431 --> 00:02:13.399
It was more importantly, it was spectacular

33
00:02:13.399 --> 00:02:17.971
to view from space. Meteorologists
were able to see quite a few characteristics

34
00:02:17.971 --> 00:02:21.241
propagate through the atmosphere
with that particular eruption.

35
00:02:21.608 --> 00:02:25.945
And the great news with GOES is that we have
so many advanced instruments on board

36
00:02:25.945 --> 00:02:30.950
that we're able to look at those particular
characteristics as they propagate across the globe

37
00:02:31.084 --> 00:02:34.921
and how they could impact
nations down the road or downstream.

38
00:02:35.522 --> 00:02:37.991
Now, in terms of wildfires,

39
00:02:37.991 --> 00:02:40.560
this is another wonderful capability that we have.

40
00:02:40.560 --> 00:02:44.097
We have the ability to detect wildfires
even in their infancy,

41
00:02:44.497 --> 00:02:47.200
the ability to actually see a wildfire develop.

42
00:02:47.700 --> 00:02:51.337
And then more importantly,
as we're able to see it and monitor it, we're able

43
00:02:51.337 --> 00:02:55.141
to reach out to first responders
and let them know exactly where it is.

44
00:02:55.742 --> 00:03:00.380
And in most cases, wildfires
develop out over areas that are fairly remote.

45
00:03:01.014 --> 00:03:05.518
So with the ability to be able to detect them
from geostationary orbit, we're able to develop

46
00:03:05.518 --> 00:03:09.956
we're able to actually see a wildfire
through its entire lifecycle from its development

47
00:03:10.190 --> 00:03:14.227
to hopefully when we're able to respond to it
and hopefully quell the actual fire itself.

48
00:03:20.099 --> 00:03:22.268
So space weather, what does that actually mean?

49
00:03:22.268 --> 00:03:24.737
We're talking about
whether that's actually in space

50
00:03:25.171 --> 00:03:27.473
between the sun and Earth.

51
00:03:28.174 --> 00:03:33.179
There is an area which we actually monitor
because when we have events

52
00:03:33.179 --> 00:03:36.749
on the on the actual sun,
they could impact us here on Earth.

53
00:03:37.383 --> 00:03:41.487
And the biggest impacts that we can notice with in
our daily lives are GPS

54
00:03:41.788 --> 00:03:43.056
and the power grid.

55
00:03:43.056 --> 00:03:48.361
Both are incredibly susceptible or
more importantly, vulnerable to solar eruptions.

56
00:03:48.995 --> 00:03:50.763
All kinds of solar phenomena.

57
00:03:50.763 --> 00:03:55.401
And those solar phenomena are being monitored
by the geostationary satellite GOES-T.

58
00:03:56.069 --> 00:03:59.138
We have that capability to not only monitor it,
but also forecast

59
00:03:59.138 --> 00:04:02.942
because we're able to look
at those particular characteristics.

60
00:04:02.942 --> 00:04:04.544
But more importantly, those phenomena.

61
00:04:04.544 --> 00:04:07.814
And we can actually inform decision makers on
when or what

62
00:04:07.814 --> 00:04:11.484
they should do according
to the severity of that particular phenomena.

63
00:04:17.590 --> 00:04:18.891
So our viewers can always go

64
00:04:18.891 --> 00:04:24.364
to any we're using any web
browser, NOAA satellites, it'll take you directly

65
00:04:24.364 --> 00:04:30.870
to our website for NESDIS, which is N-E-S-D-I-S dot NOAA dot gov.

66
00:04:31.237 --> 00:04:35.842
And from there, you can see a picture of the day,
or you can see any of the latest imagery

67
00:04:35.842 --> 00:04:37.810
from our GOES satellites.

68
00:04:42.982 --> 00:04:44.651
So as a workhorse

69
00:04:44.651 --> 00:04:48.021
GOES can provide us
with actually some more unique capabilities.

70
00:04:48.321 --> 00:04:51.391
We know about its ability
to watch hurricanes develop

71
00:04:51.391 --> 00:04:55.161
and move across the ocean
and possibly impact the land.

72
00:04:55.328 --> 00:04:59.232
But they also have the capability
of looking at our atmosphere and noticing

73
00:04:59.232 --> 00:05:03.169
telltale signs for aviation hazards
such as turbulence.

74
00:05:03.569 --> 00:05:06.205
For those of us that fly, not not not

75
00:05:06.205 --> 00:05:11.144
all of us can enjoy a flight
where it's a little bit bumpy, but thankfully GOES

76
00:05:11.144 --> 00:05:14.614
can provide us with the information
and forecasters the information

77
00:05:14.881 --> 00:05:17.984
so they can actually forecast
those particular bumpy rides.

78
00:05:18.551 --> 00:05:22.188
Another capability is its ability to again
detect fire.

79
00:05:22.989 --> 00:05:24.691
We call them hotspots.

80
00:05:24.691 --> 00:05:27.960
It has the ability to detect these hotspots
where there's a volcanic eruption

81
00:05:28.328 --> 00:05:30.563
or whether it's an actual developing wildfire.

82
00:05:30.797 --> 00:05:33.199
And with those with that new capability,

83
00:05:33.733 --> 00:05:36.002
we're able to tell decision makers

84
00:05:36.269 --> 00:05:39.872
exactly what we're seeing and more importantly,
they can react as quick as possible.

85
00:05:46.512 --> 00:05:47.513
So GOES can help

86
00:05:47.513 --> 00:05:51.551
a lot of a lot of communities,
not only meteorologists. In particular,

87
00:05:51.951 --> 00:05:55.154
for those of us that like outdoor events,
I've been known

88
00:05:55.154 --> 00:05:57.657
to go to a few outside concerts here and there.

89
00:05:58.191 --> 00:06:02.261
But the big concern for anyone going outside
these days is going to be lightning.

90
00:06:02.695 --> 00:06:06.766
We now have a capability to see lightning
with the GOES satellite.

91
00:06:07.166 --> 00:06:09.936
It provides us
not only with the ability to see lightning,

92
00:06:09.936 --> 00:06:12.638
but also anticipate lightning and its development.

93
00:06:12.939 --> 00:06:18.745
And consequently, meteorologists can then alert
officials that, hey, this particular storm

94
00:06:18.745 --> 00:06:21.581
that's going to be moving into
the area is prone to develop lightning.

95
00:06:21.948 --> 00:06:22.749
So it's a good rea-

96
00:06:22.749 --> 00:06:26.953
That's a good reason why we always have a rain
plan for any kind of outdoor activity

97
00:06:34.093 --> 00:06:34.293
All right.

98
00:06:34.293 --> 00:06:36.262
So a little known fact.

99
00:06:36.262 --> 00:06:40.400
Our satellite carries a suite of packages
and one of its capabilities

100
00:06:40.466 --> 00:06:42.301
is part of search and rescue.

101
00:06:42.301 --> 00:06:44.971
So for those that may have gotten
either lost at sea

102
00:06:44.971 --> 00:06:47.940
or a little too far
from where you really wanted to be,

103
00:06:48.241 --> 00:06:52.278
thanks to GPS, we have the capability
of actually locating that individual.

104
00:06:52.578 --> 00:06:55.515
And through our communications

105
00:06:55.515 --> 00:07:00.520
with our partners, we're able to notify
local authorities and local officials on

106
00:07:00.720 --> 00:07:03.623
if someone is actually lost

107
00:07:08.561 --> 00:07:09.061
And again,

108
00:07:09.061 --> 00:07:14.100
I'm extremely excited for this launch today
because when it comes down to it,

109
00:07:14.100 --> 00:07:16.903
as a meteorologist, this is the best tool
that's going to be available.

110
00:07:17.336 --> 00:07:18.237
Go GOES-T.