Studying for my experimental physics for chemists exam that is prior to my maths for scientists I & II combined exam at the end of September.
yo dwag, I heard you like exams?
I have been to my physics class exactly three times: The first time to see what the prof is like and the other two times because I was bored. It is essentially boring to talk about the basics electrostatic and -dynamics if you are doing statistical thermodynamics and quantum chemistry at the same time, with the latter ones of course being far more interesting as well as more challenging.
Also my maths class is nearly unnecessary to me as a future chemist, since we are mostly concentrating on proofs rather than the actual applications. I mean it might be fun for some to do integrals within the n-dimensional space, but I don't see where that is relevant. Than again, we spent exactly twenty minutes talking about taylor expansions and no time at all getting to know uncertainty analysis, which might be the most important piece of maths to any experimentalist right after differential maths.
Studying for my experimental physics for chemists exam that is prior to my maths for scientists I & II combined exam at the end of September.
yo dwag, I heard you like exams?
I have been to my physics class exactly three times: The first time to see what the prof is like and the other two times because I was bored. It is essentially boring to talk about the basics electrostatic and -dynamics if you are doing statistical thermodynamics and quantum chemistry at the same time, with the latter ones of course being far more interesting as well as more challenging.
Also my maths class is nearly unnecessary to me as a future chemist, since we are mostly concentrating on proofs rather than the actual applications. I mean it might be fun for some to do integrals within the n-dimensional space, but I don't see where that is relevant. Than again, we spent exactly twenty minutes talking about taylor expansions and no time at all getting to know uncertainty analysis, which might be the most important piece of maths to any experimentalist right after differential maths.
tl;dr
how come you write such a wall of text out of nowhere?
Studying for my experimental physics for chemists exam that is prior to my maths for scientists I & II combined exam at the end of September.
yo dwag, I heard you like exams?
I have been to my physics class exactly three times: The first time to see what the prof is like and the other two times because I was bored. It is essentially boring to talk about the basics electrostatic and -dynamics if you are doing statistical thermodynamics and quantum chemistry at the same time, with the latter ones of course being far more interesting as well as more challenging.
Also my maths class is nearly unnecessary to me as a future chemist, since we are mostly concentrating on proofs rather than the actual applications. I mean it might be fun for some to do integrals within the n-dimensional space, but I don't see where that is relevant. Than again, we spent exactly twenty minutes talking about taylor expansions and no time at all getting to know uncertainty analysis, which might be the most important piece of maths to any experimentalist right after differential maths.
![The longest e*pvp Thread I [English only]](https://www.elitepvpers.com/forum/iconimages/off-topic/longest-e-pvp-thread-i-english-only_ltr.gif){kind=small}
I miss Nomad'
