Courses Partial Differential Equations vs Classical Mechanics 2?

AI Thread Summary
The discussion centers on the decision between taking Partial Differential Equations (PDEs) or Advanced Classical Mechanics 2, with a focus on preparing for graduate school in theoretical or computational physics. The participant has a strong background in physics and mathematics but is uncertain about the best course load, considering the importance of proof-based mathematics for theoretical physics. Opinions suggest prioritizing quality over quantity in course selection, with Advanced Classical Mechanics being more beneficial if PDEs are taught by the math department. The participant is also contemplating dropping the Intro to Advanced Math class due to its perceived lower relevance. Ultimately, the emphasis is on balancing mathematical rigor with practical physics knowledge for future academic success.
Elvis 123456789
Messages
158
Reaction score
6
Hello everyone. So I wanted to get some opinions on what some of you thought was a better choice, as far taking PDE's or classical mechanics 2 goes. First let me start off by giving a little info; I've already taken calc 1-3 and ordinary differential equations, physics 1 & 2, thermodynamics/statistical mechanics, modern physics with a modern lab class, and classical mechanics 1. I want to go to grad school in physics, but I am pretty sure that I don't want to be an experimentalist. I do enjoy programming and data analysis, just not messing with instrumentation or taking direct measurements with instruments. So when I apply to grad school it'll either be for computational physics or some area of theoretical physics. My schedule for next semester, as of right now, is the following

Adv Classical Mechanics - Lagrangian and Hamiltonian mechanics, rigid body dynamics, coupled oscillators and normal modes, nonlinear dynamics and chaos, collision theory, continuum mechanics, and special relativity.

Methods in Theoretical Physics - Methods in theoretical physics and theoretical applications in physics. Includes analytic and numerical methods for differential equations, integral equations and transformations and other applications of real analysis.

Intro To Advanced Math - opics include: naive set theory, functions, cardinality, sequences of real numbers and limits. Emphasis on formal proofs

Advanced Differential Equations - A second course in differential equations. Topics may include: Bessel functions and other special functions arising from classical differential equations, Sturm-Liouville problems, partial differential equations, transform techniques.


Linear Algebra - An introduction to the topics in linear algebra most often used in applications. Topics include: matrices and their applications; simultaneous linear equations and elementary operations; linear dependence; vector spaces; rank and inverses; inner products and `best¿ approximations; numerical solutions of simultaneous linear equations; eigen-values and eigenvectors; iterative methods for calculating eigenvalues; and systems of linear equations.

The only class from those above that is actually required for me is the methods in theoretical physics class. I could take all five at the same time, but that seems a little overkill for me. So I was looking to either ditch the PDE's class or the classical mechanics 2 one; what do you guys think?



 
Physics news on Phys.org
None of the topics in Intro to Advanced Math course you listed are likely to help you in grad school in physics. I think it would be better to do well in the courses you do take. Quality in four course is better than quantity in five. I think the advance classical mechanics course would be more helpful than partial differential equations if the partial differential equations is taught by the math department. I the partial differential equations course is taught by the Physics department as a Methods in Theoretical Physics course, then maybe partial differential equations would get priority.
 
mpresic said:
None of the topics in Intro to Advanced Math course you listed are likely to help you in grad school in physics. I think it would be better to do well in the courses you do take. Quality in four course is better than quantity in five. I think the advance classical mechanics course would be more helpful than partial differential equations if the partial differential equations is taught by the math department. I the partial differential equations course is taught by the Physics department as a Methods in Theoretical Physics course, then maybe partial differential equations would get priority.
Yah I've thought about dropping the intro to advanced math class, I just haven't because I really want to get into proof based mathematics a lot more. Not to mention that the class is a prerequisite for higher level math classes such as topology and real analysis. The PDE's class is taught by the math department by the way. I just wanted to get some opinions on this because I've kinda gotten the impression that to be a theoretical physicist, you have to have had experience with proof based maths such as the ones i mentioned. So I'm kinda coming from the perspective of prioritizing the math over the physics, is that silly?
 
After a year of thought, I decided to adjust my ratio for applying the US/EU(+UK) schools. I mostly focused on the US schools before, but things are getting complex and I found out that Europe is also a good place to study. I found some institutes that have professors with similar interests. But gaining the information is much harder than US schools (like you have to contact professors in advance etc). For your information, I have B.S. in engineering (low GPA: 3.2/4.0) in Asia - one SCI...
I graduated with a BSc in Physics in 2020. Since there were limited opportunities in my country (mostly teaching), I decided to improve my programming skills and began working in IT, first as a software engineer and later as a quality assurance engineer, where I’ve now spent about 3 years. While this career path has provided financial stability, I’ve realized that my excitement and passion aren’t really there, unlike what I felt when studying or doing research in physics. Working in IT...
Hello, I’m an undergraduate student pursuing degrees in both computer science and physics. I was wondering if anyone here has graduated with these degrees and applied to a physics graduate program. I’m curious about how graduate programs evaluated your applications. In addition, if I’m interested in doing research in quantum fields related to materials or computational physics, what kinds of undergraduate research experiences would be most valuable?
Back
Top