Exploring Earth Science: A Physics Major's Journey

In summary: It was an interesting mix of doing theoretical work alongside some practical work experience. I think the key is to find a field that you are really passionate about and then to focus on learning as much as you can. I think it's important to keep up with the latest developments in the field, and to keep up with your research. I would say that I get out into the field fairly regularly, although I don't do as much research as I used to. I'm currently doing some research into the use of seismometers in marine environments.
  • #1
jbrussell93
413
38
I'm a physics major who has become interested in Earth science. Many fields of geophysics have caught my interest but as a whole, I seem to be more interested in whole Earth geophysics than applied geophysics. Seismology, geodynamics, & tectonics have really caught my eye. The field work is what I'm primarily interested in.

Basically, I created this thread because I would like to hear from others in geophysics who may have been in my position at one point or another. What sparked your interest in Earth science? What advice do you have for someone who might be in my position? How often do you get to go out into the field to collect data?
 
Earth sciences news on Phys.org
  • #2
jbrussell93 said:
I'm a physics major who has become interested in Earth science. Many fields of geophysics have caught my interest but as a whole, I seem to be more interested in whole Earth geophysics than applied geophysics. Seismology, geodynamics, & tectonics have really caught my eye. The field work is what I'm primarily interested in.

Hi jbrussell
greetings :)

Tho I don't work in the field ( I am an electronics technician) I did put myself through a degree in geology back in the 1990's as an adult student. Your interests are very similar to mine but with the addition of volcanics

Basically, I created this thread because I would like to hear from others in geophysics who may have been in my position at one point or another. What sparked your interest in Earth science? What advice do you have for someone who might be in my position? How often do you get to go out into the field to collect data?

What got me into it ... it was a very local M5.0 earthquake back in 1974 when I was a young teenager ... I changed my life interests forever and I became very passionate about seismology and quake recording. I started with rotating drum and paper recorders and in the mid '90's moved into multichannel digital recording which I am still active with.
Those early teen years also saw a growing interest in rock and mineral collecting and studies. And by the time the late '80's to '90's came arouond and I decided to do some university studies, I already has a lot of very practical experience. The uni studies provided the missing link ... the theory background !Advice ... well following a strong passion, you can never go wrong. you will always be in a better position than some one who is just studying the subject because they just need a job in that field. Be aware, getting work in the geophysics field will be a bit more difficult than in other areas like economic or enviromental geology, which is where the big money is also to be made. When I was at uni, at the end of each graduation, you would see all the BIG mining companies visiting and skim off the top 5% of graduates to go into the big Australian mines. This was great for those guys, they would often just do a solid 5 years with a company gaining valuable field experience and financial renumeration like that before moving elsewhere to follow their main lines of interest and research.Dave
 
  • #3
jbrussell93 said:
I'm a physics major who has become interested in Earth science. Many fields of geophysics have caught my interest but as a whole, I seem to be more interested in whole Earth geophysics than applied geophysics. Seismology, geodynamics, & tectonics have really caught my eye. The field work is what I'm primarily interested in.

I'm a seismologist so I can tell you a little bit about that.
In seismology you might get some field experience. Likely deploying and servicing seismometers. It can be great, if you go somewhere nice. It's mainly driving around though, followed by beers in the evenings with your comrades. Occasionally people get to go in helicopters or light aircraft. And there are usually a few technical problems to sort out with solar panels, or car batteries or something. You might have to do some digging. The "real" work is done back in the office though, sifting through data, and generally using it to try to understand some aspect of the Earth.

Basically, I created this thread because I would like to hear from others in geophysics who may have been in my position at one point or another. What sparked your interest in Earth science? What advice do you have for someone who might be in my position? How often do you get to go out into the field to collect data?
I jumped straight into a geophysics degree as an undergraduate. I was interested in it, especially because I had done geology at A-level (education for ages 16-18 in the UK), which I particularly enjoyed. However I also enjoyed maths and physics so I chose geophysics over geology. I got into seismology after taking the course as an advanced undergraduate. Living in the UK I've never experienced an earthquake, but I was really turned on by the theoretical aspects of seismology, which goes from continuum mechanics and the wave propagation of all kinds of crazy waves, through to rather mathematical processing techniques involving things like Radon transforms and Born perturbations. I use seismology to study the Earth, however there are others who use it to study earthquakes in detail. To me an earthquake is a source of energy, energy that illuminates the deep Earth, to others the details of the waveform reveal aspects of the fault geometry and the mechanics of the event itself.
 
  • #4
billiards said:
I'm a seismologist so I can tell you a little bit about that.
In seismology you might get some field experience. Likely deploying and servicing seismometers. It can be great, if you go somewhere nice. It's mainly driving around though, followed by beers in the evenings with your comrades. Occasionally people get to go in helicopters or light aircraft. And there are usually a few technical problems to sort out with solar panels, or car batteries or something. You might have to do some digging. The "real" work is done back in the office though, sifting through data, and generally using it to try to understand some aspect of the Earth.


I jumped straight into a geophysics degree as an undergraduate. I was interested in it, especially because I had done geology at A-level (education for ages 16-18 in the UK), which I particularly enjoyed. However I also enjoyed maths and physics so I chose geophysics over geology. I got into seismology after taking the course as an advanced undergraduate. Living in the UK I've never experienced an earthquake, but I was really turned on by the theoretical aspects of seismology, which goes from continuum mechanics and the wave propagation of all kinds of crazy waves, through to rather mathematical processing techniques involving things like Radon transforms and Born perturbations. I use seismology to study the Earth, however there are others who use it to study earthquakes in detail. To me an earthquake is a source of energy, energy that illuminates the deep Earth, to others the details of the waveform reveal aspects of the fault geometry and the mechanics of the event itself.

This was all very helpful for me, thanks for the input. I figured the field work was probably pretty minimal, but even just getting away from the monotonous desk work for a day would be nice. I'm currently working in a neurobiology lab doing some computer modeling and I've realized that I need something more applied and physically stimulating. I originally got interested in research in high school when I did some bird banding one summer. I fell in love with being in the field but desired something more quantitative. As you can see, I am still in the process of trying different things out but I think geophysics, the combination of both field work and quantitative work, sounds like the best of both worlds. I will be taking my first physical geology class next semester so I'll see how serious I still am after that. I'm also planning on applying to geophysics REU's for this summer to see what the research is really all about

As far as graduate programs in geophysics... How much geology/geophysics do they expect me to have as an undergrad in physics? I'm able to take one every semester before I graduate and get a geophysics minor if that helps at all.
 
  • #5
jbrussell93 said:
As far as graduate programs in geophysics... How much geology/geophysics do they expect me to have as an undergrad in physics? I'm able to take one every semester before I graduate and get a geophysics minor if that helps at all.

I don't know about the American system, really. However, with a physics degree you're in with a shot. A lot of geophysicists, particularly among the older generation, started off with physics. Nowadays geophysics degrees are more common, and most of the geos below the age of about 30 I know have undergrads in geophysics. Having a minor in geophysics would certainly help you. Although it would depend on the supervisor and the project they have in mind. Many supervisors might have a preference for people with physics backgrounds, especially if they are more theoretically inclined.

The stereotypical view would be that physicists are better at maths but know nothing about rocks. Earth scientists the other way around. I've heard professors say it is easier to teach a geo the relevant maths than it is to teach a physicist/maths guy rocks. If you're serious about doing geophysics I would recommend finding a course that'll teach you about rocks, igneous petrology is not a bad starting point.
 
  • #6
jbrussell93 said:
As far as graduate programs in geophysics... How much geology/geophysics do they expect me to have as an undergrad in physics? I'm able to take one every semester before I graduate and get a geophysics minor if that helps at all.

I come from a physics background and managed to get a PhD offer studying landslides and landslide induced tsunamis under the supervision of a geophysicist (In the UK). I am sure I could have also got an offer studying impact cratering. I believe the most important factor in this was my research experience in the area, which was entirely computational modelling. I had almost zero undergrad teaching in the area! Neither project had any field work, although the landslide tsunami one would have involved experiments in a fluid dynamics lab. I expect I would have had a difficult time getting a project that involved significant field work without having done any previously, and I was told as much by my supervisor.

I feel exactly the same as you with regard to the monotony of computational work. However, you have to bare in mind that even if you do find a PhD with significant fieldwork, it is still highly likely that the majority of your year will be spent at a computer. That is just the reality of science today. Data has to be analysed and reports written :(. You could make life easier for yourself by getting familiar a programming language like Python or MATLAB which will certainly take the pain out computational work when it arises.

My advice to you would be try and get some research experience in the area if possible. So it is great that you are applying for geophysics REUs. I know professors, certainly at my university, were open to undergraduate students from other areas wanting to work in their labs. For example, a physics friend of mine studied isotope anomalies in volcanic rocks from Iceland during the summer but is now doing an astrophysics PhD. Since you are still an undergraduate the world is still open to you, so to speak, and it seems like you have all the right ideas in mind.
 
  • #7
billiards said:
......The stereotypical view would be that physicists are better at maths but know nothing about rocks. Earth scientists the other way around. I've heard professors say it is easier to teach a geo the relevant maths than it is to teach a physicist/maths guy rocks. If you're serious about doing geophysics I would recommend finding a course that'll teach you about rocks, igneous petrology is not a bad starting point.

hahaha ohhh gosh aint that the truth ! ;)


Dave
 
  • #8
JesseC said:
I come from a physics background and managed to get a PhD offer studying landslides and landslide induced tsunamis under the supervision of a geophysicist (In the UK). I am sure I could have also got an offer studying impact cratering. I believe the most important factor in this was my research experience in the area, which was entirely computational modelling. I had almost zero undergrad teaching in the area! Neither project had any field work, although the landslide tsunami one would have involved experiments in a fluid dynamics lab. I expect I would have had a difficult time getting a project that involved significant field work without having done any previously, and I was told as much by my supervisor.

I feel exactly the same as you with regard to the monotony of computational work. However, you have to bare in mind that even if you do find a PhD with significant fieldwork, it is still highly likely that the majority of your year will be spent at a computer. That is just the reality of science today. Data has to be analysed and reports written :(. You could make life easier for yourself by getting familiar a programming language like Python or MATLAB which will certainly take the pain out computational work when it arises.

My advice to you would be try and get some research experience in the area if possible. So it is great that you are applying for geophysics REUs. I know professors, certainly at my university, were open to undergraduate students from other areas wanting to work in their labs. For example, a physics friend of mine studied isotope anomalies in volcanic rocks from Iceland during the summer but is now doing an astrophysics PhD. Since you are still an undergraduate the world is still open to you, so to speak, and it seems like you have all the right ideas in mind.

Yeah, I only know a minimal amount of python and I was going to take a MATLAB class this semester but had to hold off in order to keep on track with my physics courses. What would you say is the best language to learn because I was going to take a C intro programming class for computer science majors, but I'm beginning to think one of the MATLAB programming classes for engineers may be a better choice for modeling work. Maybe once I get a better feel for programming I'll enjoy the computational work a bit more.

So what exactly are you doing now? It sounds from your post that you are not doing the geophysics PhD involving tsunamis. Also, when you were looking at graduate programs, did you look at geology/geophysics departments or physics with a geophysics emphasis? I would imagine that I would have a greater chance of doing some field work in a geology/geophysics department...
 
  • #9
jbrussell93 said:
Yeah, I only know a minimal amount of python and I was going to take a MATLAB class this semester but had to hold off in order to keep on track with my physics courses. What would you say is the best language to learn because I was going to take a C intro programming class for computer science majors, but I'm beginning to think one of the MATLAB programming classes for engineers may be a better choice for modeling work. Maybe once I get a better feel for programming I'll enjoy the computational work a bit more.

So what exactly are you doing now? It sounds from your post that you are not doing the geophysics PhD involving tsunamis. Also, when you were looking at graduate programs, did you look at geology/geophysics departments or physics with a geophysics emphasis? I would imagine that I would have a greater chance of doing some field work in a geology/geophysics department...

There is no one best language to learn! Once you learn how to "think like a programmer" then you'll find learning any language much easier. When I said MATLAB/Python I was referring specifically to data analysis work. They are good, common, scripting languages with hundreds of built in functions to plot graphs, do statistical analysis and everything else. I should say that Python itself is much more general, but there are modules for scientific work (NumPy, SciPy), while MATLAB is not free but your university will probably have an institutional license. It is my understanding that complex modelling work is not typically done in scripting languages because it is much faster to use a compiled language like Fortran or C. So... taking a class in C would not be a bad thing to do, however if you really have no interest in modelling and would prefer to do fieldwork perhaps your time is better spent on something more relevant to that?

I looked for PhDs in Earth science departments, which usually included atmospheric science, oceanography, geology, geophysics and sometimes even planetary science. You will often find physicists working in Earth science departments but rarely find geologists in physics departments, so definitely restrict your search to the Earth sciences if that is what you want! However, there is always overlap, for example seismic waves can be used to study the oceans and neutrinos can potentially be used to study the earth. If you want to do fieldwork I would suggest you look up some faculty who are doing fieldwork and send them a polite email about opportunities to do your graduate work with them. The worst they can do is say no, but more helpful ones might suggest other opportunities or put you in touch with other people.

You are right, I didn't do the landslide PhD for numerous reasons which I won't go into but I have now moved sideways into climate and atmospheric science. I'm actually doing a one year MSc course while reapplying for PhDs.
 
  • #10
JesseC said:
If you want to do fieldwork I would suggest you look up some faculty who are doing fieldwork and send them a polite email about opportunities to do your graduate work with them. The worst they can do is say no, but more helpful ones might suggest other opportunities or put you in touch with other people.

I actually have talked to a seismologist in the geology department at my school who has a PhD in physics who was VERY interested and enthusiastic about letting me work with him. He said that he's only ever had one other undergrad physics student interested in geophysics, but they eventually lost interest. My school is a larger state school (around 33,000 undergrad) but the physics department is tiny with only about 60-70 physics undergrads total. I'm going to take his intro physical geology class next semester before I commit to working with him, though. Partly because I'm still not completely sure that I want to go for geophysics, but mainly because I feel that I would be "abandoning" my current lab if I switched right now. I'm sure my mentor would understand but I want to at least follow through with my project to the end of the academic year because I personally feel that I should.
 
  • #11
My niece has a PhD in planetary physics and specializes in seismology. You might want to look into that.
 
  • #12
Back to the OP. One of the giants of geology was the physicist Arthur Holmes. He produced the first widely accepted data on rock dating and the age of the Earth. He proposed sea-floor spreading and mantle convection four decades before plate tectonics was developed. His Principles of Physical Geology was an outstanding textbook.

In summary, my message is "Physicists can make hugely important contributions to geology."
 
  • Like
Likes DeBangis21
  • #13
Ophiolite said:
Back to the OP. One of the giants of geology was the physicist Arthur Holmes. He produced the first widely accepted data on rock dating and the age of the Earth. He proposed sea-floor spreading and mantle convection four decades before plate tectonics was developed. His Principles of Physical Geology was an outstanding textbook.

In summary, my message is "Physicists can make hugely important contributions to geology."

That is one fascinating wikipedia page. And from the page it looks as though he did the rock dating in his undergrad years! It's nice to see useful things come from physicists who side step into other fields. Being in a biology lab I've seen first hand how biologists tend to view physicists as having simplistic views, but it's hard to deny the fact that the tools that physicists employ are useful for just about any problem. Just look at Hodgkin and Huxley and their contributions to neurobiology!
 
  • #14
jbrussell93 said:
What sparked your interest in Earth science?

I tried to answer that but I think that it was not explicitely enough to suggest: passion to solve mysteries. I wonder if it's a problem to suggest that without being geophysicist What happened to Earth and why (physically)? I'll start a thread on the example I attempted to give in a few days. Need to do some more research first.
 
  • #15
I wanted to be an astronomer, but thought my maths wasn't up to it. The next largest thing for study after the rest of the universe is the Earth.
 
  • #16
Ophiolite said:
I wanted to be an astronomer, but thought my maths wasn't up to it. The next largest thing for study after the rest of the universe is the Earth.

It's interesting you say that... What originally drew me towards physics was astronomy/astrophysics but after researching on the internet while still in high school and finding that it's next to impossible to become a research astronomer/astrophysicist, I started looking into biology where I knew there was more funding. Now that I've stumbled upon geophysics, I feel that it is close to my original interests only more applicable to everyday life and therefore... more funding. Though, I've still seen more of a space physics flavor to some of the geophysics departments I've seen with atmospheric plasma, geomagnetic fields, etc... So maybe there is still hope!
 
  • #17
Ophiolite said:
I wanted to be an astronomer, but thought my maths wasn't up to it. The next largest thing for study after the rest of the universe is the Earth.

You still need pretty sharp maths skillz to be a geophysicist. If you don't understand Fourier transforms, for example, you would be lucky to pass grad school. Some geos have crazy maths skillz, Harold Jeffries (deceased), Tony Dahlen (deceased), Albert Tarantola (deceased), and Roel Schneider spring to mind to name but a few.
 
  • #18
billiards said:
You still need pretty sharp maths skillz to be a geophysicist. If you don't understand Fourier transforms, for example, you would be lucky to pass grad school. Some geos have crazy maths skillz, Harold Jeffries (deceased), Tony Dahlen (deceased), Albert Tarantola (deceased), and Roel Schneider spring to mind to name but a few.

A computational geologist at a good London university told me "I'm garbagee at maths."... his colleague, turned to me and said, "He isn't being modest, he really is garbagee at maths." XD. I still think he WAS being modest of course...
 
  • #19
JesseC said:
A computational geologist at a good London university told me "I'm garbagee at maths."... his colleague, turned to me and said, "He isn't being modest, he really is garbagee at maths." XD. I still think he WAS being modest of course...

In terms of maths skillz (typically):

Geophysicist ≠ Geologist

Mathematician > Physicist > Geophysicist > Geologist > Non-scientist

As for anecdotes, I recently attended a software engineering course also attended by a group of particle physicists, neurobiologists, economists, mechanical engineers, and geographers. One task was to write an algorithm to find the co-ordinates of the overlapping region given the co-ordinates of two overlapping squares (with aligned vertices). The geophysicists in the room realized the problem could be solved 1-dimension at a time and wrote the nicest, most general algorithm in the room. The others wrote messy algorithms that required the user to input the leftmost square co-ordinates first and solved the problem in an awkward way. That is, apart from the particle physicists, who could not figure out an algorithm at all!
 
  • #20
i'm a undergraduate student, studying in pure geology, but i love geophysics very much.
any advice for me?
please..
 
  • #21
I think it's a bit late to answer the original poster but I'll write how I ended up as an undergrad student of Geophysics myself.

Luckily it's not a long story, in high school although I liked almost everything, the only things I would keep thinking out of the classroom where Maths, Physics and Chemistry. Because of some awful chemistry teachers the list was narrowed to Maths and Physics; but I was (and still am) kind of scared of a work devoted to research (and at the time I didn't know of such things as applied maths or physics). Then while I was trying to figure out what engineering was I going to study (like if it was the inmediate logic step from Physics and Math to something more applied), some teacher suggested Geology and while looking into that, I ran into Geophysics. So I signed up for this and I liked it, even though I hadn't had all the disciplines of geophysics itself (until now most has been math, physics and stuff).
As for a job, what I like it's that if I ever have the feeling research it's not my thing (due to capability or to style or whatever) it's not that difficult to change direction and go and work in some oil company (at least for people graduating at my university I've seen that) in a more "mainstream" job.

The field that, I think, I'm most interested in, is Thermodynamics in the Earth's interior. Sadly there isn't research about that in my uni so I don't really have anyone to chat about that for now and it's something I'll have to figure out in this year I have towards finishing Bachelor's. By the way, has anyone any book to recommend on this topic?
 
  • #22
Apart from Physics Forums, you could find forums related to Geophysics in particular too. You might get nice responses there and could even ask about universities for further studies, because I am sure there would be people there who have studied the field and would know.

This for instance: http://forum.detectation.com/

Seems pretty active, like the last post was today.
 
  • #23
billiards said:
One task was to write an algorithm to find the co-ordinates of the overlapping region given the co-ordinates of two overlapping squares (with aligned vertices). The geophysicists in the room realized the problem could be solved 1-dimension at a time and wrote the nicest, most general algorithm in the room. The others wrote messy algorithms that required the user to input the leftmost square co-ordinates first and solved the problem in an awkward way. That is, apart from the particle physicists, who could not figure out an algorithm at all!

Thats actually quiet surprising given that particle physics has many equations and a fairly good depth of mathematics. For squares its not really a difficult problem either.
 
  • #24
Sabian said:
I think it's a bit late to answer the original poster but I'll write how I ended up as an undergrad student of Geophysics myself.

Luckily it's not a long story, in high school although I liked almost everything, the only things I would keep thinking out of the classroom where Maths, Physics and Chemistry. Because of some awful chemistry teachers the list was narrowed to Maths and Physics; but I was (and still am) kind of scared of a work devoted to research (and at the time I didn't know of such things as applied maths or physics). Then while I was trying to figure out what engineering was I going to study (like if it was the inmediate logic step from Physics and Math to something more applied), some teacher suggested Geology and while looking into that, I ran into Geophysics. So I signed up for this and I liked it, even though I hadn't had all the disciplines of geophysics itself (until now most has been math, physics and stuff).
As for a job, what I like it's that if I ever have the feeling research it's not my thing (due to capability or to style or whatever) it's not that difficult to change direction and go and work in some oil company (at least for people graduating at my university I've seen that) in a more "mainstream" job.

The field that, I think, I'm most interested in, is Thermodynamics in the Earth's interior. Sadly there isn't research about that in my uni so I don't really have anyone to chat about that for now and it's something I'll have to figure out in this year I have towards finishing Bachelor's. By the way, has anyone any book to recommend on this topic?

Thanks for sharing. I'm going through a similar situation myself, in that I'm interested in a lot of things. I switched this semester to physics from biological engineering because I realized that I'm primarily interested in the science and discovery and not so much in the applications.

It's kind of interesting how my interests have evolved actually. My interest in science was sparked during a summer field biology experience in high school. It was mainly pertaining to field work with birds and some water quality stuff but I absolutely loved it. It mainly just acted as the catalyst that sparked my curiosity, as I began to branch out from there to other sciences and eventually discovered physics. I was fascinated by it and wanted to major in physics but was told that it wasn't wise so I just decided that engineering was close enough... but it wasn't. The Earth sciences seem like the perfect field for someone like me though. Can't just choose one narrow specialty, but instead wants a field that requires knowledge from all of the sciences. Not to mention you get to do some fieldwork!
 

1. What is the purpose of "Exploring Earth Science: A Physics Major's Journey"?

The purpose of this book is to provide a unique perspective on the study of Earth science from the viewpoint of a physics major. It explores the fundamental principles and concepts of Earth science through the lens of physics, making it an ideal resource for students and researchers in both fields.

2. Who is the target audience for this book?

This book is primarily aimed at undergraduate and graduate students in physics, geophysics, and related fields. It can also be a valuable resource for scientists and researchers who want to gain a deeper understanding of the connections between physics and Earth science.

3. What topics are covered in "Exploring Earth Science: A Physics Major's Journey"?

This book covers a wide range of topics, including the structure and composition of the Earth, plate tectonics, geological time, the Earth's magnetic field, climate change, and more. It also delves into the interdisciplinary nature of Earth science and how it relates to physics.

4. How does this book approach the study of Earth science?

This book takes a unique approach by blending the principles and theories of physics with the study of Earth science. It emphasizes the interconnectedness of the two fields and how physics can help us understand the processes and phenomena that shape our planet.

5. Are there any prerequisites for reading this book?

A basic understanding of physics and mathematics is recommended for readers to fully grasp the concepts presented in this book. However, the book also provides a brief overview of key physics principles, making it accessible to a wider audience.

Similar threads

Replies
2
Views
720
Replies
2
Views
1K
  • Other Physics Topics
Replies
2
Views
480
Replies
3
Views
1K
  • Earth Sciences
Replies
13
Views
7K
  • General Discussion
Replies
1
Views
559
Replies
13
Views
2K
Replies
3
Views
2K
Replies
35
Views
4K
Replies
21
Views
640
Back
Top