/sci/ - Science & Math » Thread #9147225

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Anonymous Mon 04 Sep 01:03:29 2017 No.9147225 View Reply Original Report

Quoted By: >>9147231 >>9147232 >>9147281 >>9147386 >>9147582 >>9148611 >>9149386 >>9150469

Is this guide any good?

Anonymous

Anonymous Mon 04 Sep 2017 01:08:26 No.9147231 Report

Quoted By: >>9147238

>>9147225
>transition to advanced mathematics
>not a good first book

Clearly written by a CS brainlet.

Anonymous

Anonymous Mon 04 Sep 2017 01:08:38 No.9147232 Report

Quoted By: >>9147238

>>9147225
nah, just another memelist

Anonymous

Anonymous Mon 04 Sep 2017 01:10:22 No.9147234 Report

Quoted By: >>9147238

The ordering is intentionally retarded. Probably as a joke or a bait. Learning it this way would be like saying you have to learn Molecular Chemistry before you learned Newtonian Physics because physical objects are made of molecules.

Anonymous

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Anonymous Mon 04 Sep 2017 01:12:43 No.9147238 Report

Quoted By: >>9147241 >>9147253

>>9147231
>>9147232
>>9147234
Well, fuck, what is a good chart for learning maths, then?

Anonymous

Anonymous Mon 04 Sep 2017 01:15:02 No.9147241 Report

Quoted By: >>9147283 >>9149434

>>9147238
Why do you need a chart? Just read what you're interested in

Anonymous

Anonymous Mon 04 Sep 2017 01:22:37 No.9147253 Report

Quoted By:

>>9147238
Just look up some College Catalog for Math Programs and see what level of class (Freshman->Senior) and use that as a rough guideline. Though math branches out in infinitely many directions, its fundamental core is pretty much standardized. Even if it "doesn't need to be so" (and you somehow find deep meaning in that statement), that's nowhere near as important as the fact that the books you encounter for the core classes will be directed at students who don't necessarily have the degree of mathematical maturity needed to tackle the Senior-level re-teaching of the fundamentals.

Anonymous

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Anonymous Mon 04 Sep 2017 01:31:40 No.9147269 Report

Quoted By: >>9147275 >>9147288 >>9150469

This maybe? From a thread on /lit/.

Anonymous

Anonymous Mon 04 Sep 2017 01:35:30 No.9147275 Report

Quoted By:

>>9147269
the algebraist section is a blatant tell that the person who made it is at most a sophomore

Anonymous

Anonymous Mon 04 Sep 2017 01:36:30 No.9147278 Report

Quoted By: >>9147296

just translate this list
http://imperium.lenin.ru/~verbit/MATH/programma.html

Anonymous

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Anonymous Mon 04 Sep 2017 01:37:41 No.9147281 Report

Quoted By: >>9147579 >>9147984

>>9147225
Do you Never heard of : Quality over Quantity?
>12 books before Calculus
KISS (keep it short and simple) http://en.wikipedia.org/wiki/KISS_principle
>It repeats material several times
DRY(don't repeat yourself) http://en.wikipedia.org/wiki/Don%27t_repeat_yourself

Anonymous

Anonymous Mon 04 Sep 2017 01:38:12 No.9147283 Report

Quoted By:

>>9147241
Because it's easier to visualize the next logical step in my mathematical jourey!

Or something.

Anonymous

Anonymous Mon 04 Sep 2017 01:39:23 No.9147288 Report

Quoted By:

>>9147269
That's fine if you look at it the right way and obviously ignore the last row of /lit/ memeing.

First row is a collection of pre-program math books, in other words they are a bunch of practical math books for students at various levels of not being ready for math discipline books to learn some math.

Next row is a collection of basic books for the higher-level fundamentals and is when you start getting into the Mathematics discipline and not just "doing math."

Next three rows are high-level introductions of the three primary branches of Mathematics.

Anonymous

Anonymous Mon 04 Sep 2017 01:41:54 No.9147296 Report

Quoted By: >>9147298

>>9147278
High School:
• Euclidean geometry, complex numbers, scalar multiplication, Cauchy-Bunyakovskii inequality. Introduction to quantum mechanics (Kostrikin-Manin). Groups of transformations of a plane and space. Derivation of trigonometric identities. Geometry on the upper half-plane (Lobachevsky). Properties of inversion. The action of fractional-linear transformations.
• Rings, fields. Linear algebra, finite groups, Galois theory. Proof of Abel's theorem. Basis, rank, determinants, classical Lie groups. Dedekind cuts. Construction of real and complex numbers. Definition of the tensor product of vector spaces.
• Set theory. Zorn's lemma. Completely ordered sets. Cauchy-Hamel basis. Cantor-Bernstein theorem.
• Metric spaces. Set-theoretic topology (definition of continuous mappings, compactness, proper mappings). Definition of compactness in terms of convergent sequences for spaces with a countable base. Homotopy, fundamental group, homotopy equivalence.
• p-adic numbers, Ostrovsky's theorem, multiplication and division of p-adic numbers by hand.
• Differentiation, integration, Newton-Leibniz formula. Delta-epsilon formalism.

Anonymous

Anonymous Mon 04 Sep 2017 01:42:47 No.9147298 Report

Quoted By: >>9147304 >>9150475

>>9147296
Freshman:
• Analysis in R^n. Differential of a mapping. Contraction mapping lemma. Implicit function theorem. The Riemann-Lebesgue integral. ("Analysis" by Laurent Schwartz, "Analysis" by Zorich, "Theorems and Problems in Functional Analysis" by Kirillov-Gvishiani)
• Hilbert spaces, Banach spaces (definition). The existence of a basis in a Hilbert space. Continuous and discontinuous linear operators. Continuity criteria. Examples of compact operators. ("Analysis" by Laurent Schwartz, "Analysis" by Zorich, "Theorems and Problems in Functional Analysis" by Kirillov-Gvishiani)
• Smooth manifolds, submersions, immersions, Sard's theorem. The partition of unity. Differential topology (Milnor-Wallace). Transversality. Degree of mapping as a topological invariant.
• Differential forms, the de Rham operator, the Stokes theorem, the Maxwell equation of the electromagnetic field. The Gauss-Ostrogradsky theorem as a particular example.
• Complex analysis of one variable (according to the book of Henri Cartan or the first volume of Shabat). Contour integrals, Cauchy's formula, Riemann's theorem on mappings from any simply-connected subset $C$ to a circle, the extension theorem, Little Picard Theorem. Multivalued functions (for example, the logarithm).
• The theory of categories, definition, functors, equivalences, adjoint functors (Mac Lane, Categories for the working mathematician, Gelfand-Manin, first chapter).
• Groups and Lie algebras. Lie groups. Lie algebras as their linearizations. Universal enveloping algebra, Poincaré-Birkhoff-Witt theorem. Free Lie algebras. The Campbell-Hausdorff series and the construction of a Lie group by its algebra (yellow Serre, first half).

Anonymous

Anonymous Mon 04 Sep 2017 01:45:23 No.9147304 Report

Quoted By: >>9147311

>>9147298
Sophomore:
• Algebraic topology (Fuchs-Fomenko). Cohomology (simplicial, singular, de Rham), their equivalence, Poincaré duality, homotopy groups. Dimension. Fibrations (in the sense of Serre), spectral sequences (Mishchenko, "Vector bundles ...").
• Computation of the cohomology of classical Lie groups and projective spaces.
• Vector bundles, connectivity, Gauss-Bonnet formula, Euler, Chern, Pontryagin, Stiefel-Whitney classes. Multiplicativity of Chern characteristic. Classifying spaces ("Characteristic Classes", Milnor and Stasheff).
• Differential geometry. The Levi-Civita connection, curvature, algebraic and differential identities of Bianchi. Killing fields. Gaussian curvature of a two-dimensional Riemannian manifold. Cellular decomposition of loop space in terms of geodesics. The Morse theory on loop space (Milnor's Morse Theory and Arthur Besse's Einstein Manifolds). Principal bundles and connections on them.
• Commutative algebra (Atiyah-MacDonald). Noetherian rings, Krull dimension, Nakayama lemma, adic completion, integrally closed, discrete valuation rings. Flat modules, local criterion of flatness.
• The Beginning of Algebraic Geometry. (The first chapter of Hartshorne or Shafarevich or green Mumford). Affine varieties, projective varieties, projective morphisms, the image of a projective variety is projective (via resultants). Sheaves. Zariski topology. Algebraic manifold as a ringed space. Hilbert's Nullstellensatz. Spectrum of a ring.
• Introduction to homological algebra. Ext, Tor groups for modules over a ring, resolvents, projective and injective modules (Atiyah-MacDonald). Construction of injective modules. Grothendieck Duality (from the book Springer Lecture Notes in Math, Grothendieck Duality, numbers 21 and 40).
• Number theory; Local and global fields, discriminant, norm, group of ideal classes (blue book of Cassels and Frohlich).

Anonymous

Anonymous Mon 04 Sep 2017 01:47:21 No.9147311 Report

Quoted By: >>9147317

>>9147304
Sophomore (cont):
• Reductive groups, root systems, representations of semisimple groups, weights, Killing form. Groups generated by reflections, their classification. Cohomology of Lie algebras. Computing cohomology in terms of invariant forms. Singular cohomology of a compact Lie group and the cohomology of its algebra. Invariants of classical Lie groups. (Yellow Serre, the second half, Hermann Weyl, "The Classical Groups: Their Invariants and Representations"). Constructions of special Lie groups. Hopf algebras. Quantum groups (definition).

Junior:
• K-theory as a cohomology functor, Bott periodicity, Clifford algebras. Spinors (Atiyah's book "K-Theory" or AS Mishchenko "Vector bundles and their applications"). Spectra. Eilenberg-MacLane Spaces. Infinite loop spaces (according to the book of Switzer or the yellow book of Adams or Adams "Lectures on generalized cohomology", 1972).
• Differential operators, pseudodifferential operators, symbol, elliptic operators. Properties of the Laplace operator. Self-adjoint operators with discrete spectrum. The Green's operator and applications to the Hodge theory on Riemannian manifolds. Quantum mechanics. (R. Wells's book on analysis or Mishchenko "Vector bundles and their application").
• The index formula (Atiyah-Bott-Patodi, Mishchenko), the Riemann-Roch formula. The zeta function of an operator with a discrete spectrum and its asymptotics.
• Homological algebra (Gel'fand-Manin, all chapters except the last chapter). Cohomology of sheaves, derived categories, triangulated categories, derived functor, spectral sequence of a double complex. The composition of triangulated functors and the corresponding spectral sequence. Verdier's duality. The formalism of the six functors and the perverse sheaves.

Anonymous

Anonymous Mon 04 Sep 2017 01:50:33 No.9147317 Report

Quoted By: >>9147331

>>9147311
Junior (cont):
• Algebraic geometry of schemes, schemes over a ring, projective spectra, derivatives of a function, Serre duality, coherent sheaves, base change. Proper and separable schemes, a valuation criterion for properness and separability (Hartshorne). Functors, representability, moduli spaces. Direct and inverse images of sheaves, higher direct images. With proper mapping, higher direct images are coherent.
• Cohomological methods in algebraic geometry, semicontinuity of cohomology, Zariski's connectedness theorem, Stein factorization.
• Kähler manifolds, Lefschetz's theorem, Hodge theory, Kodaira's relations, properties of the Laplace operator (chapter zero of Griffiths-Harris, is clearly presented in the book by André Weil, "Kähler manifolds"). Hermitian bundles. Line bundles and their curvature. Line bundles with positive curvature. Kodaira-Nakano's theorem on the vanishing of cohomology (Griffiths-Harris).
• Holonomy, the Ambrose-Singer theorem, special holonomies, the classification of holonomies, Calabi-Yau manifolds, Hyperkähler manifolds, the Calabi-Yau theorem.
• Spinors on manifolds, Dirac operator, Ricci curvature, Weizenbeck-Lichnerovich formula, Bochner's theorem. Bogomolov's theorem on the decomposition of manifolds with zero canonical class (Arthur Besse, "Einstein varieties").
• Tate cohomology and class field theory (Cassels-Fröhlich, blue book). Calculation of the quotient group of a Galois group of a number field by the commutator. The Brauer Group and its applications.
• Ergodic theory. Ergodicity of billiards.
• Complex curves, pseudoconformal mappings, Teichmüller spaces, Ahlfors-Bers theory (according to Ahlfors's thin book).

Anonymous

Anonymous Mon 04 Sep 2017 01:55:50 No.9147331 Report

Quoted By: >>9147336

>>9147317
Senior:
• Rational and profinite homotopy type. The nerve of the etale covering of the cellular space is homotopically equivalent to its profinite type. Topological definition of etale cohomology. Action of the Galois group on the profinite homotopy type (Sullivan, "Geometric topology").
• Etale cohomology in algebraic geometry, comparison functor, Henselian rings, geometric points. Base change. Any smooth manifold over a field locally in the etale topology is isomorphic to A^n. The etale fundamental group (Milne, Danilov's review from VINITI and SGA 4 1/2, Deligne's first article).
• Elliptic curves, j-invariant, automorphic forms, Taniyama-Weil conjecture and its applications to number theory (Fermat's theorem).
• Rational homotopies (according to the last chapter of Gel'fand-Manin's book or Griffiths-Morgan-Long-Sullivan's article). Massey operations and rational homotopy type. Vanishing Massey operations on a Kahler manifold.
• Chevalley groups, their generators and relations (according to Steinberg's book). Calculation of the group K_2 from the field (Milnor, Algebraic K-Theory).
• Quillen's algebraic K-theory, BGL^+ and Q-construction (Suslin's review in the 25th volume of VINITI, Quillen's lectures - Lecture Notes in Math. 341).
• Complex analytic manifolds, coherent sheaves, Oka's coherence theorem, Hilbert's nullstellensatz for ideals in a sheaf of holomorphic functions. Noetherian ring of germs of holomorphic functions, Weierstrass's theorem on division, Weierstrass's preparation theorem. The Branched Cover Theorem. The Grauert-Remmert theorem (the image of a compact analytic space under a holomorphic morphism is analytic). Hartogs' theorem on the extension of an analytic function. The multidimensional Cauchy formula and its applications (the uniform limit of holomorphic functions is holomorphic).

Anonymous

Anonymous Mon 04 Sep 2017 01:57:02 No.9147336 Report

Quoted By: >>9147340

>>9147331
Specialist: (Fifth year of College):
• The Kodaira-Spencer theory. Deformations of the manifold and solutions of the Maurer-Cartan equation. Maurer-Cartan solvability and Massey operations on the DG-Lie algebra of the cohomology of vector fields. The moduli spaces and their finite dimensionality (see Kontsevich's lectures, or Kodaira's collected works). Bogomolov-Tian-Todorov theorem on deformations of Calabi-Yau.
• Symplectic reduction. The momentum map. The Kempf-Ness theorem.
• Deformations of coherent sheaves and fiber bundles in algebraic geometry. Geometric theory of invariants. The moduli space of bundles on a curve. Stability. The compactifications of Uhlenbeck, Gieseker and Maruyama. The geometric theory of invariants is symplectic reduction (the third edition of Mumford's Geometric Invariant Theory, applications of Francis Kirwan).
• Instantons in four-dimensional geometry. Donaldson's theory. Donaldson's Invariants. Instantons on Kähler surfaces.
• Geometry of complex surfaces. Classification of Kodaira, Kähler and non-Kähler surfaces, Hilbert scheme of points on a surface. The criterion of Castelnuovo-Enriques, the Riemann-Roch formula, the Bogomolov-Miyaoka-Yau inequality. Relations between the numerical invariants of the surface. Elliptic surfaces, Kummer surface, surfaces of type K3 and Enriques.
• Elements of the Mori program: the Kawamata-Viehweg vanishing theorem, theorems on base point freeness, Mori's Cone Theorem (Clemens-Kollar-Mori, "Higher dimensional complex geometry" plus the not translated Kollar-Mori and Kawamata-Matsuki-Masuda).
• Stable bundles as instantons. Yang-Mills equation on a Kahler manifold. The Donaldson-Uhlenbeck-Yau theorem on Yang-Mills metrics on a stable bundle. Its interpretation in terms of symplectic reduction. Stable bundles and instantons on hyper-Kähler manifolds; An explicit solution of the Maurer-Cartan equation in terms of the Green operator.

Anonymous

Anonymous Mon 04 Sep 2017 01:58:14 No.9147340 Report

Quoted By: >>9147376

>>9147336
Specialist (cont):
• Pseudoholomorphic curves on a symplectic manifold. Gromov-Witten invariants. Quantum cohomology. Mirror hypothesis and its interpretation. The structure of the symplectomorphism group (according to the article of Kontsevich-Manin, Polterovich's book "Symplectic geometry", the green book on pseudoholomorphic curves and lecture notes by McDuff and Salamon)
• Complex spinors, the Seiberg-Witten equation, Seiberg-Witten invariants. Why the Seiberg-Witten invariants are equal to the Gromov-Witten invariants.
• Hyperkähler reduction. Flat bundles and the Yang-Mills equation. Hyperkähler structure on the moduli space of flat bundles (Hitchin-Simpson).
• Mixed Hodge structures. Mixed Hodge structures on the cohomology of an algebraic variety. Mixed Hodge structures on the Maltsev completion of the fundamental group. Variations of mixed Hodge structures. The nilpotent orbit theorem. The SL(2)-orbit theorem. Closed and vanishing cycles. The exact sequence of Clemens-Schmid (Griffiths red book "Transcendental methods in algebraic geometry").
• Non-Abelian Hodge theory. Variations of Hodge structures as fixed points of C^*-actions on the moduli space of Higgs bundles (Simpson's thesis).
• Weil conjectures and their proof. l-adic sheaves, perverse sheaves, Frobenius automorphism, weights, the purity theorem (Beilinson, Bernstein, Deligne, plus Deligne, Weil conjectures II)
• The quantitative algebraic topology of Gromov, (Gromov "Metric structures for Riemannian and non-Riemannian spaces"). Gromov-Hausdorff metric, the precompactness of a set of metric spaces, hyperbolic manifolds and hyperbolic groups, harmonic mappings into hyperbolic spaces, the proof of Mostow's rigidity theorem (two compact Kählerian manifolds covered by the same symmetric space X of negative curvature are isometric if their fundamental groups are isomorphic, and dim X> 1).
• Varieties of general type, Kobayashi and Bergman metrics, analytic rigidity (Siu)

Anonymous

Anonymous Mon 04 Sep 2017 02:22:49 No.9147376 Report

Quoted By:

>>9147340
Russian math is hardcore as fuck
https://en.wikipedia.org/wiki/Misha_Verbitsky
In my country seniors will be PhD level and Sophomore best Undergrad students on maybe best university.

Anonymous

Anonymous Mon 04 Sep 2017 02:29:45 No.9147386 Report

Quoted By:

>>9147225
Megane Kuro confirms it.

Anonymous

Anonymous Mon 04 Sep 2017 04:19:59 No.9147579 Report

Quoted By: >>9147593

>>9147281
it's a foundational approach you dumb cunt, AKA it will teach you actual mathematics and not rote memorisation of half-concepts

Anonymous

Anonymous Mon 04 Sep 2017 04:21:03 No.9147582 Report

Quoted By:

>>9147225
>another guide written by someone who didn't learn math that way
only the truly autistic could survive this type of learning

Anonymous

Anonymous Mon 04 Sep 2017 04:24:47 No.9147593 Report

Quoted By: >>9147647 >>9149335

>>9147579
>it will teach you actual mathematics
No it won't, especially with shitty authors like Lang and so many pointless 'how to proof' books

The fact you think this is 'actual mathematics' make it clear you've learned calculus and linear algebra AT MOST

Anonymous

Anonymous Mon 04 Sep 2017 05:09:27 No.9147647 Report

Quoted By:

>>9147593
I'm in Calc I now but never took precalc, what should I read? Also taking data mining and these indians want me to know fucking linear algebra, like wtf nigga you said the pre-req was data structures.

Anonymous

Anonymous Mon 04 Sep 2017 10:58:07 No.9147984 Report

Quoted By:

>>9147281
I think the repeated material is by design. It's overlapping.

Anonymous

Anonymous Mon 04 Sep 2017 13:13:40 No.9148260 Report

Quoted By:

bump

Anonymous

Anonymous Mon 04 Sep 2017 17:15:07 No.9148611 Report

Quoted By:

>>9147225
yes it is very good

Anonymous

Anonymous Mon 04 Sep 2017 17:49:01 No.9148674 Report

Quoted By: >>9148808

What math books/path that I should learn if i want to git gud in applied math for econ?
t. Brainlet undergrad

Anonymous

Anonymous Mon 04 Sep 2017 18:43:23 No.9148808 Report

Quoted By:

>>9148674
The guide seems to be more for pure math.

Anonymous

Anonymous Mon 04 Sep 2017 22:49:21 No.9149335 Report

Quoted By: >>9149359

>>9147593
How is Lang shitty?

Anonymous

Anonymous Mon 04 Sep 2017 23:00:46 No.9149359 Report

Quoted By: >>9149716

>>9149335
>How is Lang shitty?
read it and see

Anonymous

Anonymous Mon 04 Sep 2017 23:20:14 No.9149386 Report

Quoted By:

>>9147225
I'm reading the first book right now. It's a nice intro into logic and I'm enjoying it, but I definitely wouldn't recommend people interested in math read it first. If you understand x + y = y + x then you have enough logic knowledge to understand math. You don't have to know about transliterating the english "or" and if it should be an inclusive or exclusive disjunction or if it even matters because of the maxims of cooperative principle and Grice's Razor

Anonymous

Anonymous Mon 04 Sep 2017 23:48:07 No.9149434 Report

Quoted By: >>9150515

>>9147241
While I agree it's good to read what you're interested in, it's *not* a good idea to read shit that's over your head for which you haven't met the "prerequisites" (e.g. matrices from college algebra --> linear algebra --> differential equations -> pde -> convex optimization -> ...).

Anonymous

Anonymous Tue 05 Sep 2017 03:19:45 No.9149716 Report

Quoted By:

>>9149359
I did and it's good

Anonymous

Anonymous Tue 05 Sep 2017 15:23:02 No.9150469 Report

Quoted By: >>9150506

There's a lot of big talk on here, but I very much doubt that any of you have ever read through and worked out of most of the books on guides such as these - >>9147225
>>9147269

Anonymous

Anonymous Tue 05 Sep 2017 15:26:51 No.9150475 Report

Quoted By:

>>9147298
>high school Galois theory
>freshman lie algebra
lmao, this all sounds like some math nerds wet dream. unfortunately in the real world there are probably less than 100 people worldwide that could handle this curriculum.

Anonymous

Anonymous Tue 05 Sep 2017 15:45:49 No.9150506 Report

Quoted By:

>>9150469
Why would anyone work through OP's guide? You'd gain close to nothing and barely know any more math than the average freshman

Anonymous

Anonymous Tue 05 Sep 2017 15:50:19 No.9150515 Report

Quoted By:

>>9149434
Textbooks list the required prerequisties in the preface.

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