Think about the following questions as you watch the video

1. 00:51 What is astrophysics?
2. 01:50 What are the different types of astrophysicists and how do they inform us about the Universe?

00:13: I'm Janna Levin
00:15: and I'm a professor of physics and astronomy
00:18: at Barnard College and Columbia University
00:20: and I primarily study astrophysics.
00:23: And astrophysics is really very much rooted in physics,
00:26: the study of physical laws
00:28: and how mathematics actually describes
00:32: natural phenomena and laws.
00:34: But it's applied to the universe as a whole,
00:36: not just the things in it-- stars, galaxies,
00:40: the things that we observe at very great distances--
00:43: but also space itself,
00:46: space and time and how space time evolved
00:48: and even how the universe began and was created.
00:52: So, astrophysics has this very beautiful setting
00:55: in which to study physics,
00:57: from which to study the fundamental natural laws.
01:00: In physics, there's kind of a distinction
01:03: in people who work in physics between experimentalists,
01:07: observers, and theorists.
01:10: Experimentalists build things to try to make detections,
01:15: to confirm and gather evidence.
01:18: Observers will often use things like telescopes
01:21: to look out into the sky and
01:22: hopefully receive something from the cosmos
01:25: that's new and never been seen before.
01:29: And then there's theorists, such as myself,
01:32: who often sit quietly with a pen and paper, maybe a computer,
01:38: and use the mathematics to try to make discoveries,
01:42: to talk to the observers,
01:44: and maybe make suggestions for what they could look for.
01:46: And then there are people who do all three
01:50: and can combine all those skills.
01:52: But there's a real conversation between
01:54: doing the math, making a prediction,
01:57: going to the observers to make an actual observation,
02:00: or building an experiment and vice versa.
02:03: Sometimes there are discoveries made
02:05: with telescopes that we just didn't foresee
02:08: and then we have to go back to our pen and paper,
02:10: back to the drawing board and figure out what did we miss
02:13: and how could we not have predicted this phenomenon?
02:16: And then often, it goes that way
02:18: that we're trying to understand something we've seen
02:20: in the world but don't yet understand.
02:23: So, astrophysics draws from a lot of different kinds of study
02:27: and I actually came to realize
02:31: that this was this beautiful field kind of late.
02:34: I was not interested in physics when I was a student.
02:37: I was not one of those kids
02:39: in the basement with a chemistry lab
02:41: and I didn't understand or appreciate
02:43: how elegant and beautiful science was until much later.
02:47: I wouldn't say I had a fear of mathematics
02:50: but I didn't recognize how rich and beautiful it was.
02:54: And it wasn't until later when I understood
02:56: that mathematics gives us this kind of...
02:59: it's a gift that connects us to the natural world
03:02: that somehow, through mathematics,
03:05: we're able to understand
03:06: natural phenomena and then that's just remarkable
03:09: and that it's the same wherever you are in the world
03:12: and it's the same with the other side
03:13: of the universe, you know, one plus one is still two.
03:16: So, there's something that connects all of us there
03:20: that seems really important.
03:21: And when I discovered that in college,
03:23: I became completely enamored of physics and math
03:27: and astronomy and I started to study astrophysics.
03:31: And now, I work on questions like,
03:35: "How did the universe begin?" and, "How is it evolving?" and,
03:39: "How many dimensions are there?
03:41: Are there more than three dimensions in the universe?"
03:44: and, "What's the universe made of?"
03:46: because the most important questions right now seem to be
03:51: bound to an attempt to understand
03:53: what the universe is made of
03:55: because we've realized that most of the universe
03:58: is in a form of matter and energy
04:00: that we've never seen before because it's literally dark.
04:03: We cannot see it with our telescopes.
04:06: But we know it's out there
04:07: because we can see the effect it has on galaxies
04:10: and on the expansion of the universe.
04:12: And so we deduced that this
04:14: energy is out there and this matter is out there
04:16: but, amazingly,
04:18: it is nothing like any kind of matter energy
04:20: we've ever seen before.
04:21: And so, it's a very big question that says,
04:24: by studying astrophysics, we're learning about the deepest
04:28: underlying principles in nature that are fundamental