Physics-based independent Study Ideas?

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Discussion Overview

The discussion revolves around suggestions for independent study topics in physics for a high school student with a background in calculus and introductory physics. The student expresses interest in relativity but seeks guidance on feasible study topics and potential projects.

Discussion Character

  • Exploratory
  • Conceptual clarification
  • Homework-related

Main Points Raised

  • The student is considering relativity but is uncertain about the practical application of studying it independently.
  • Some participants suggest various topics, including Lagrangian and Hamiltonian Mechanics, Special Relativity, Complex Analysis, and Abstract Linear Algebra, emphasizing their importance in physics.
  • One participant notes the necessity of selecting appropriate books and studying them carefully, including working through examples and problems.
  • There is a suggestion that the final output of the study could be an expository paper summarizing the learned material.

Areas of Agreement / Disagreement

Participants generally agree on the importance of the suggested topics, but there is no consensus on which specific topic the student should pursue, as the student is still exploring options.

Contextual Notes

The discussion does not resolve the student's uncertainty about the feasibility of studying relativity or the specific approach to independent study. There are also indications that the student may need to consider their mathematical maturity when selecting topics.

Who May Find This Useful

This discussion may be useful for high school students considering independent studies in physics, educators advising students on study topics, and individuals interested in the intersection of mathematics and physics.

flyinjoe
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Hello, I am currently in high school and I recently got the opportunity to do an independent study with one of my teachers and I am struggling to come up with what to study. I have taken calculus 1, 2, and 3, differential equations (with a bit of linear algebra), and calculus-based mechanics and E&M.
I would ideally like to do something physics-based, but I am open to all ideas. I am leaning toward relativity, but I am not sure I would be able to actually do anything with that except learn straight out of the book (most independent study students end up writing a paper).

Do you have any suggestions for topic I should study? What kind of work could I do with what I will learn?

Thank you.
 
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Shouldn't you be having this discussion with your teacher?

Zz.
 
Well I did, and he told me to come back with what I wanted to study (he's pretty busy).
 
Here are some options which might be fun to study and should be within reach given your background. They are also very important topics if you choose to pursue physics.

1. Lagrangian and Hamiltonian Mechanics. This is the foundation for pretty much all of modern physics.

2. Special Relativity. A very interesting topic that can be learned with very little background.

3. Complex Analysis. A course of a more applied nature should be accessible. Again, this is a very fun topic that is also useful in physics.

4. Abstract Linear Algebra (focusing on inner products). I've seen way too many physics people who don't understand the fairly simple formalism behind linear algebra and inner product spaces. Understanding of these concepts is crucial for physics, such as quantum mechanics. Doing such a study on your own may be difficult though, since it would require some "mathematical maturity".

You should approach it as follows: Select a book (or books) after some discussion with your teacher which will be at the correct level. Choose some chapters to study (make sure this is a reasonable amount). Go through them very carefully, working through examples and derivations. Do a few problems. This should give you enough material to discuss with your teacher every week. The paper written at the end of most independent studies is usually expository, so after studying these things you can write a short paper maybe summarizing what you learned.
 
Thanks for the excellent information!
 

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