• PM_ME_VINTAGE_30S [he/him]@lemmy.sdf.org
        link
        fedilink
        English
        arrow-up
        3
        ·
        5 months ago

        Linear algebra (ex: multiply the matrices A and B), multivariable calculus (example: find ∇F with F=[xy,yz,xz]^T ), or actual “multidimensional analysis” (example: define the norm of [1m,1m/s,1m/s^2 ] in a way that makes sense)? I can help with all three.

          • PM_ME_VINTAGE_30S [he/him]@lemmy.sdf.org
            link
            fedilink
            English
            arrow-up
            1
            ·
            edit-2
            5 months ago

            Sounds like fun! I’m going to bed soonish but I’m willing to answer questions about multivariable calculus probably when I wake up.

            When I took multivariable calculus, the two books that really helped me “get the picture” were Multivariable Calculus with Linear Algebra and Series by Trench and Kolman, and Calculus of Vector Functions by Williamson, Crowell, and Trotter. Both are on LibGen and both are cheap because they’re old books. But their real strength lies in the fact that both books start with basic matrix algebra, and the interplay between calculus and linear algebra is stressed throughout, unlike a lot of the books I looked at (and frankly the class I took) which tried to hide the underlying linear algebra.

            • PlexSheep@infosec.pub
              link
              fedilink
              arrow-up
              3
              ·
              5 months ago

              Thanks for the offer! The exam is tomorrow (today is another) so there isn’t a lot of time to prepare anymore. I’ll just be writing a page of notes that we can take to the exam as a cheat sheet. Still, if something comes up, I might just ask you.

              Thanks for the offer.