Using Mathematica for 4 vectors and etc.

drmcninja
Messages
3
Reaction score
0
I just got mathematica and I wanted to use it to simplify 4 vector/ Lorentz transformations by using matrices etc. I was wondering how I would go about doing this. I just started special relativity in my first semester Quantum Mechanics/S.R. class for reference.
 
Physics news on Phys.org
Thanks, but the book did not address my issue (not to mention it was over my level). I was just introduced to the transforms and I was wondering how I would go about doing this. For example variable declarations, matrix operations, basic lorentz transforms, etc. I have looked around and went through tutorials but I couldn't put it together.
 
You can check these notes:

http://inside.mines.edu/~jamcneil/CourseInformation/phgn300/McNeil/Lectures/SpaceTime3/MathematicaIntro/Introduction.html

Try to understand what is going on. Then you have to decide what problem you want to solve, what drawing you want to make.
 
Last edited by a moderator:
Here is a notebook that I use. It has some definitions and several random examples. I had to delete some sections and some output to make it smaller.
 

Attachments

Arkajad, thanks for the link, that one was very useful.

Dalespam, I really thank you for that notebook, I am keeping it for reference, that is a great help :).
 

Thread 'Euclidean geometry and gravity'

I asked a question here, probably over 15 years ago on entanglement and I appreciated the thoughtful answers I received back then. The intervening years haven't made me any more knowledgeable in physics, so forgive my naïveté ! If a have a piece of paper in an area of high gravity, lets say near a black hole, and I draw a triangle on this paper and 'measure' the angles of the triangle, will they add to 180 degrees? How about if I'm looking at this paper outside of the (reasonable)...
View full post »

Thread 'Jackson: justification of the Poynting vector by GR'

The Poynting vector is a definition, that is supposed to represent the energy flow at each point. Unfortunately, the only observable effect caused by the Poynting vector is through the energy variation in a volume subject to an energy flux through its surface, that is, the Poynting theorem. As a curl could be added to the Poynting vector without changing the Poynting theorem, it can not be decided by EM only that this should be the actual flow of energy at each point. Feynman, commenting...
View full post »

Similar threads

I Proper Time & 4-vectors: Clarification Needed
Replies
20
Views
3K
I How to calculate basis vectors from metric tensor (as a matrix)?
Replies
6
Views
466
I Why is Number-Flux Four-Vector Frame-Independent?
Replies
4
Views
2K
I Transform Bases for 4-Vectors in Ref. Frames
Replies
1
Views
1K
I Motivation for the usage of 4-vectors in special relativity
Replies
32
Views
5K
I Momentary Co-Moving Reference Frame in SR
Replies
3
Views
2K
A Question on Dirac's derivatives of the 4-velocity w.r.t. coordinates
2
Replies
53
Views
2K
I What, exactly, are invariants?
3
Replies
144
Views
10K
A Show Lagrangian is invariant under a Lorentz transformation without using generators
Replies
3
Views
1K
A Zeroth law of black hole thermodynamics
Replies
9
Views
1K

Hot Threads

Recent Insights

Back
Top