Bookmarks for Bbishop

1. Automobiles
- 1.1. DIY / Open source car

2. Biology
- 2.1. Aging and gerontology
- 2.2. Anatomy/Physiology
- 2.3. Aquascience / marine biology
  - 2.3.1. Benthology
    - 2.3.1.1. Annelida
- 2.4. Astrobiology
- 2.5. Biochemistry
- 2.6. Bioinformatics
- 2.7. Biotech
- 2.8. Caffeine
- 2.9. Cloning
- 2.10. College Board AP Biology
- 2.11. Cryonics
- 2.12. Ecology
- 2.13. Electric plants
- 2.14. Genes and genetic engineering
- 2.15. Medical science
  - 2.15.1. Cardiology
  - 2.15.2. Diseases and bacteriology
  - 2.15.3. Histology
  - 2.15.4. Immunohistology
  - 2.15.5. Immunology
  - 2.15.6. Med school
  - 2.15.7. Pathology and epidemiology
  - 2.15.8. Surgery
    - 2.15.8.1. Head transplant operations
- 2.16. Neuroscience
  - 2.16.1. Computer vision
  - 2.16.2. Interface
  - 2.16.3. Learning/Memorization/Supermemo
  - 2.16.4. Memes
  - 2.16.5. Neuroethology
  - 2.16.6. Neurotransception
- 2.17. Programming bacteria for computation
- 2.18. Psychology
- 2.19. Synthetic life / Artificial Life
  - 2.19.1. Artificial / cultured meats
  - 2.19.2. Artificial reproduction
    - 2.19.2.1. Ectogenetic chamber / artificial uterus

3. Blogs

4. Bookmarks Toolbar Folder

5. Books
- 5.1. Nonfree books

6. Chemistry
- 6.1. AP Chemistry
  - 6.1.1. AP Chemistry -> AP Chem
  - 6.1.2. AP Chemistry -> Equations
- 6.2. Acids and bases
- 6.3. Analytical chemistry
  - 6.3.1. Instrumentation
    - 6.3.1.1. Microscopy
- 6.4. Batteries
- 6.5. Chemical engineering
- 6.6. Chemophobia
- 6.7. Crystallography
- 6.8. Elements
  - 6.8.1. Fluoride
  - 6.8.2. Silicon
- 6.9. Metallurgy
- 6.10. Nonfree chemistry books
- 6.11. Organic chemistry
- 6.12. Software
- 6.13. Water

7. College education options

8. Complexity Science
- 8.1. May 27 complexity digest
  - 8.1.1. [Folder Name]
  - 8.1.2. complex science NECSI (3001 to 8278)
- 8.2. Nonlinear Dynamics/Systems [Physics]

9. Computation and the WWW
- 9.1. Computer Science
  - 9.1.1. Artificial Intelligence
  - 9.1.2. Operating system science
- 9.2. Computer engineering
- 9.3. Computer programming
  - 9.3.1. Game programming
  - 9.3.2. Java
- 9.4. Fiber optics
- 9.5. Internet
  - 9.5.1. Connectivity
- 9.6. Linux
- 9.7. Search
  - 9.7.1. Google
- 9.8. Software
  - 9.8.1. Browsers
    - 9.8.1.1. Opera

10. Electronics
- 10.1. Antenna
- 10.2. Batteries
- 10.3. Cameras
  - 10.3.1. Night vision
- 10.4. Cell phones
- 10.5. Computers
- 10.6. Electric infrastructure
- 10.7. Logic gates
- 10.8. Microchip development
- 10.9. Microcontrollers
- 10.10. Microfabrication
  - 10.10.1. Lithography
- 10.11. Microwave electronics
- 10.12. PCB
- 10.13. Resistors
- 10.14. Robotics
- 10.15. Solar cells
- 10.16. Storage
- 10.17. Transistor
- 10.18. Weapons

11. Entertainment
- 11.1. Cinematography
- 11.2. Humor

12. Environment
- 12.1. Geology
- 12.2. Global warming and climate change
- 12.3. Meteorology

13. Forums
- 13.1. Community
- 13.2. Roguesci.org threads

14. General science

15. Industrial machining
- 15.1. Lathe
- 15.2. cnczone.com threads

16. Information science
- 16.1. Data visualization
- 16.2. Hierarchical Tree Representation
  - 16.2.1. [Folder Name]
- 16.3. Information to Read

17. Languages
- 17.1. Arabic
- 17.2. Japanese

18. Mailing lists

19. Mathematics
- 19.1. Books
- 19.2. Dave Rusin's mathematics classification
  - 19.2.1. Algebra
    - 19.2.1.1. Algebraic field theory
      - 19.2.1.1.1. Difference algebra
      - 19.2.1.1.2. Diffferential algebra
      - 19.2.1.1.3. Galois theory
      - 19.2.1.1.4. Topological fields
    - 19.2.1.2. Algebraic geometry / algebraic topology
      - 19.2.1.2.1. (Co)homology theory
      - 19.2.1.2.2. Affine geometry
      - 19.2.1.2.3. Algebraic groups
      - 19.2.1.2.4. Birational geometry (mappings and correspondence)
      - 19.2.1.2.5. Curves
      - 19.2.1.2.6. Cycles & subschemes
      - 19.2.1.2.7. Families & fibrations
      - 19.2.1.2.8. Higher-dimensional surfaces
      - 19.2.1.2.9. Local theory
      - 19.2.1.2.10. Projective & enumerative geometry
      - 19.2.1.2.11. Projective algebraic varieties
        19.2.1.2.11.1. Abelian varieties
        19.2.1.2.11.2. Jacobian varieties
        19.2.1.2.11.3. Picard varieties
        19.2.1.2.11.4. Prym varieties
        19.2.1.2.11.5. Toric varieties
      - 19.2.1.2.12. Real algebra & real analytic geometry
    - 19.2.1.3. Associative ring theory
      - 19.2.1.3.1. Chain conditions, growth conditions, forms of finiteness
      - 19.2.1.3.2. Division rings and semisimple Artin rings
      - 19.2.1.3.3. Local rings
      - 19.2.1.3.4. Matrix rings
      - 19.2.1.3.5. Radicals and radical properties of rings
      - 19.2.1.3.6. Rings with polynomial identity
    - 19.2.1.4. Category theory
      - 19.2.1.4.1. Abelian categories
      - 19.2.1.4.2. Homological algebra
      - 19.2.1.4.3. Special categories
    - 19.2.1.5. Combinatorics
      - 19.2.1.5.1. Algebraic combinatorics
      - 19.2.1.5.2. Enumerative combinatorics
      - 19.2.1.5.3. Extremal combinatorics
    - 19.2.1.6. Commutative rings
      - 19.2.1.6.1. (Co)homological methods
      - 19.2.1.6.2. (Semi)local rings
      - 19.2.1.6.3. Arithmetic rings
      - 19.2.1.6.4. Chain conditions
      - 19.2.1.6.5. Commutative algebra
      - 19.2.1.6.6. Differential algebra
      - 19.2.1.6.7. Finite commutative rings (number theoretic aspects)
      - 19.2.1.6.8. General commutative ring theory
      - 19.2.1.6.9. Integral domains
      - 19.2.1.6.10. Ring extensions
      - 19.2.1.6.11. Theory of modules and ideals
      - 19.2.1.6.12. Topological rings
      - 19.2.1.6.13. Witt vectors
    - 19.2.1.7. General algebraic systems
      - 19.2.1.7.1. Algebraic structures
    - 19.2.1.8. Group theory
      - 19.2.1.8.1. Abelian groups
      - 19.2.1.8.2. Abstract finite groups
      - 19.2.1.8.3. Groupoids
      - 19.2.1.8.4. Linear algebraic groups / classical groups
      - 19.2.1.8.5. Permutation groups
      - 19.2.1.8.6. Probabilistic methods in group theory
      - 19.2.1.8.7. Representation theory of groups
      - 19.2.1.8.8. Semigroups
      - 19.2.1.8.9. Special aspects of infinite/finite groups
      - 19.2.1.8.10. Structure and classification of infinite/finite groups
    - 19.2.1.9. K-theory
      - 19.2.1.9.1. K-theory of forms
      - 19.2.1.9.2. Grothendieck groups and K_0
      - 19.2.1.9.3. Higher algebraic K-theory
      - 19.2.1.9.4. K-theory in geometry
      - 19.2.1.9.5. Obstructions from topology
      - 19.2.1.9.6. Steinberg groups and K_2
      - 19.2.1.9.7. Topological K-theory
      - 19.2.1.9.8. Whitehead groups and K_1
    - 19.2.1.10. Lie / topological groups
      - 19.2.1.10.1. Compact groups
      - 19.2.1.10.2. Noncompact transformation groups
    - 19.2.1.11. Linear algebra
      - 19.2.1.11.1. (Semi)linear transformations
      - 19.2.1.11.2. Algebraic systems of matrices
      - 19.2.1.11.3. Canonical forms
      - 19.2.1.11.4. Clifford algebras
      - 19.2.1.11.5. Commutativity
      - 19.2.1.11.6. Determinants, permanents / special matrix functions
      - 19.2.1.11.7. Eigenvalues, singular values, eigenvectors
      - 19.2.1.11.8. Exterior algebra & Grassmann algebras
      - 19.2.1.11.9. Factorization of matrices
      - 19.2.1.11.10. Hermitian matrices
      - 19.2.1.11.11. Inequalities w/ eigenvalues & eigenvectors
      - 19.2.1.11.12. Linear equations
      - 19.2.1.11.13. Linear inequalities
      - 19.2.1.11.14. Matrices over special rings
      - 19.2.1.11.15. Matrix equations and identities
      - 19.2.1.11.16. Matrix inversion
      - 19.2.1.11.17. Matrix pencils
      - 19.2.1.11.18. Multilinear algebra
      - 19.2.1.11.19. Random matrices
      - 19.2.1.11.20. Stochastic matrices
      - 19.2.1.11.21. Vector & tensor algebra
      - 19.2.1.11.22. Vector spaces
    - 19.2.1.12. Nonassociative ring theory
      - 19.2.1.12.1. Jordan algebras
    - 19.2.1.13. Number theory
      - 19.2.1.13.1. Additive number theory & partitions
      - 19.2.1.13.2. Algebraic number theory / global fields
      - 19.2.1.13.3. Algebraic number theory / local and p-adic fields
      - 19.2.1.13.4. Arithmetic algebraic geometry / Diophantine geometry
      - 19.2.1.13.5. Computational number theory
      - 19.2.1.13.6. Diophantine approximation / transcendental number theory
      - 19.2.1.13.7. Diophantine equations and Fermat's last theorem
      - 19.2.1.13.8. Elementary number theory
      - 19.2.1.13.9. Exponential sums and character sums
      - 19.2.1.13.10. Finite fields and commutative rings
      - 19.2.1.13.11. Geometry of numbers
      - 19.2.1.13.12. Multiplicative number theory
      - 19.2.1.13.13. Number theory & logic
      - 19.2.1.13.14. Polynomials and matrices
      - 19.2.1.13.15. Probabilistic theory / metric theory of algorithms
      - 19.2.1.13.16. Sequences and sets
      - 19.2.1.13.17. Zeta and L-functions - analytic theory
    - 19.2.1.14. Ordered sets
      - 19.2.1.14.1. Boolean algebras / Boolean rings
      - 19.2.1.14.2. Distributive lattices
      - 19.2.1.14.3. Lattices
      - 19.2.1.14.4. Modular lattices
      - 19.2.1.14.5. Ordered structures
  - 19.2.2. Analysis
    - 19.2.2.1. Calculus and real analysis
      - 19.2.2.1.1. Finite differences and functional equations
        19.2.2.1.1.1. Difference equations
        19.2.2.1.1.1.1. Difference operators
        19.2.2.1.1.1.2. Lyness type difference equations
        19.2.2.1.1.1.3. Scaling (q-differences)
        19.2.2.1.1.1.4. Stability
        19.2.2.1.1.2. Functional equations
        19.2.2.1.1.2.1. Conditional equations
        19.2.2.1.1.2.1.1. Orthogonal additivity
        19.2.2.1.1.2.2. Equations for complex functions
        19.2.2.1.1.2.3. Equations for real functions
        19.2.2.1.1.2.4. Iteration theory & iterative/composite equations
        19.2.2.1.1.2.5. Matrix and operator equations
        19.2.2.1.1.2.6. Stability / separation / extension
      - 19.2.2.1.2. Measure theory and integration
        19.2.2.1.2.1. Classical measure theory
        19.2.2.1.2.2. Measure-theoretic ergodic theory
        19.2.2.1.2.3. Set functions in abstract spaces
      - 19.2.2.1.3. Real functions
      - 19.2.2.1.4. Sequences and series
        19.2.2.1.4.1. Abstract structure summability
        19.2.2.1.4.2. Convergence/Divergence
        19.2.2.1.4.3. Infinite limiting processes
        19.2.2.1.4.4. Inversion theorems
        19.2.2.1.4.5. Summability methods
        19.2.2.1.4.5.1. Absolute summability
        19.2.2.1.4.5.2. Direct theorems on summability
        19.2.2.1.4.5.3. Strong summability
      - 19.2.2.1.5. Special functions
        19.2.2.1.5.1. Hypergeometric functions
    - 19.2.2.2. Complex variables
      - 19.2.2.2.1. Function theory
        19.2.2.2.1.1. Geometric function theory
      - 19.2.2.2.2. Meromorphic functions
      - 19.2.2.2.3. Potential theory
        19.2.2.2.3.1. Axiomatic potential theory
      - 19.2.2.2.4. Riemann surfaces
      - 19.2.2.2.5. Series expansions
      - 19.2.2.2.6. Several complex variables
        19.2.2.2.6.1. (Compact) analytic spaces
        19.2.2.2.6.2. Analytic continuation
        19.2.2.2.6.3. Automorphic functions
        19.2.2.2.6.4. CR manifolds
        19.2.2.2.6.5. Complex manifolds
        19.2.2.2.6.6. Complex spaces with a group of automorphisms
        19.2.2.2.6.7. Geometric convexity
        19.2.2.2.6.8. Holomorphic convexity
        19.2.2.2.6.9. Holomorphic fiber spaces
        19.2.2.2.6.10. Homomorphic mappings & correspondences
        19.2.2.2.6.11. Multivariable differential operators
        19.2.2.2.6.12. Multivariable holomorphic functions
        19.2.2.2.6.13. Non-Archimedean complex analysis
        19.2.2.2.6.14. Pluripotential theory
        19.2.2.2.6.15. Pseudoconvex domains
        19.2.2.2.6.16. Singularities
    - 19.2.2.3. Differential and integral equations
      - 19.2.2.3.1. Calculus of variations and optimization
        19.2.2.3.1.1. Carathéodory, Hamilton-Jacobi theories, including dynamic programming
        19.2.2.3.1.2. Existence theory
        19.2.2.3.1.3. Optimality
        19.2.2.3.1.4. Successive approximations
      - 19.2.2.3.2. Dynamical systems & ergodic theory
        19.2.2.3.2.1. Complex dynamical systems
        19.2.2.3.2.2. Dynamical systems w/ hyperbolic behavior
        19.2.2.3.2.3. Ergodic theory
        19.2.2.3.2.4. Finite-dimensional Hamiltonian, Lagrangian, contact & nonholonomic systems
        19.2.2.3.2.5. Infinite-dimensional Hamiltonian systems
        19.2.2.3.2.6. Infinite-dimensional dissipative dynamical systems
        19.2.2.3.2.7. Local bifurcation theory
        19.2.2.3.2.8. Low-dimensional dynamical systems
        19.2.2.3.2.9. Random dynamical systems
        19.2.2.3.2.10. Smooth dynamical systems
        19.2.2.3.2.11. Topological dynamics
      - 19.2.2.3.3. Global analysis
        19.2.2.3.3.1. Calculus on manifolds
        19.2.2.3.3.2. Catastrophe theory
        19.2.2.3.3.3. Differentiable manifolds
        19.2.2.3.3.4. Infinite-dimensional manifolds
        19.2.2.3.3.5. Nonlinear operators
        19.2.2.3.3.6. PDEs on manifolds
        19.2.2.3.3.7. Pseudogroups & differentiable groupoids
        19.2.2.3.3.8. Theory of singularities
      - 19.2.2.3.4. Integral equations
        19.2.2.3.4.1. Abstract integral equations (abstract spaces)
        19.2.2.3.4.2. Eigenvalue problems
        19.2.2.3.4.3. Fredholm integral equations
        19.2.2.3.4.4. Integral operators
        19.2.2.3.4.5. Integro-ODEs
        19.2.2.3.4.6. Integro-PDEs
        19.2.2.3.4.7. Inverse problems
        19.2.2.3.4.8. Nonlinear integral equations
        19.2.2.3.4.9. Random integral equations
        19.2.2.3.4.10. Volterra integral equations
      - 19.2.2.3.5. Ordinary differential equations
        19.2.2.3.5.1. Asymptotic theory
        19.2.2.3.5.2. Boundary value problems
        19.2.2.3.5.3. Control problems
        19.2.2.3.5.4. ODEs in abstract spaces
        19.2.2.3.5.5. ODEs in complex domains
        19.2.2.3.5.6. Ordinary differential operators
        19.2.2.3.5.7. Qualitative theory
        19.2.2.3.5.8. Stability theory
      - 19.2.2.3.6. Partial differential equations
        19.2.2.3.6.1. Eigenvalue problems
        19.2.2.3.6.2. Elliptic type PDEs
        19.2.2.3.6.3. Hyperbolic type PDEs
        19.2.2.3.6.4. Hypoelliptic equations and systems
        19.2.2.3.6.5. Overdetermined systems
        19.2.2.3.6.6. Parabolic equations and systems
        19.2.2.3.6.7. Partial differental opreators
        19.2.2.3.6.8. Pseudodifferential operators
        19.2.2.3.6.9. Spectral theory
    - 19.2.2.4. Functional analysis
      - 19.2.2.4.1. Abstract harmonic analysis
        19.2.2.4.1.1. Almost periodic functions
        19.2.2.4.1.1.1. Distal functions
        19.2.2.4.1.1.2. Recurrent functions
        19.2.2.4.1.2. Analysis on ...
        19.2.2.4.1.2.1. Analysis on general compact groups
        19.2.2.4.1.2.2. Analysis on homogenous spaces
        19.2.2.4.1.2.3. Analysis on ordered groups
        19.2.2.4.1.2.4. Analysis on other specific Lie groups
        19.2.2.4.1.2.5. Analysis on specific compact groups
        19.2.2.4.1.2.6. Analysis on specific locally compact abelian groups
        19.2.2.4.1.3. Categorical methods
        19.2.2.4.1.4. Character groups and dual objects
        19.2.2.4.1.5. Fourier series convergence
        19.2.2.4.1.6. Fourier transforms
        19.2.2.4.1.7. Fourier-Stieltjes transforms
        19.2.2.4.1.8. Groups, semigroups, amenable groups, etc.
        19.2.2.4.1.9. H^p-theory
        19.2.2.4.1.10. Homomorphisms
        19.2.2.4.1.11. Hypergroups
        19.2.2.4.1.12. L^1-algebras
        19.2.2.4.1.13. L^p-spaces and other function spaces on groups, semigroups, etc.
        19.2.2.4.1.14. Special sets
        19.2.2.4.1.14.1. Ditkin sets
        19.2.2.4.1.14.2. Helson sets
        19.2.2.4.1.14.3. Kronecker sets
        19.2.2.4.1.14.4. Sidon sets
        19.2.2.4.1.14.5. Thin sets
        19.2.2.4.1.15. Spectral synthesis
        19.2.2.4.1.16. Spherical functions
        19.2.2.4.1.17. Summability methods
      - 19.2.2.4.2. Banach spaces & Banach lattices
      - 19.2.2.4.3. Commutative branch algebras
      - 19.2.2.4.4. Fourier analysis
        19.2.2.4.4.1. Nontrigonometric Fourier analysis
      - 19.2.2.4.5. Function spaces
      - 19.2.2.4.6. Hilbert spaces
      - 19.2.2.4.7. Integral transforms
        19.2.2.4.7.1. Convolution
        19.2.2.4.7.2. Laplace transform
        19.2.2.4.7.3. Moment problems
        19.2.2.4.7.4. Multiple transforms
        19.2.2.4.7.5. Operational calculi
        19.2.2.4.7.5.1. Calculus of Mikusinski
        19.2.2.4.7.5.2. Classical operational calculus
        19.2.2.4.7.5.3. Discrete operational calculus
        19.2.2.4.7.6. Radon transform
        19.2.2.4.7.7. Special transforms
        19.2.2.4.7.7.1. Hilbert transform
        19.2.2.4.7.7.2. Legendre transform
        19.2.2.4.7.8. Transforms of special functions
      - 19.2.2.4.8. Operator theory
        19.2.2.4.8.1. Algebras of operators
        19.2.2.4.8.2. Integro-differential and pseudodifferential operators
        19.2.2.4.8.3. Linear operators
        19.2.2.4.8.4. Linear spaces
        19.2.2.4.8.5. Nonlinear operators
        19.2.2.4.8.6. Ordinary differential operators
        19.2.2.4.8.7. Partial differential operators
      - 19.2.2.4.9. Selfadjoint operator algebras (C*-algebras, von Neumann (W*-) algebras, etc.)
      - 19.2.2.4.10. Topological linear spaces
    - 19.2.2.5. Numerical analysis and optimization
      - 19.2.2.5.1. Acceleration of convergence
      - 19.2.2.5.2. Approximations and expansions
        19.2.2.5.2.1. Abstract approximation theory
        19.2.2.5.2.2. Approximate quadratures
        19.2.2.5.2.3. Approximation by (integral/positive/etc.) operators
        19.2.2.5.2.4. Approximation by arbitrary linear expressions
        19.2.2.5.2.5. Approximation by arbitrary nonlinear expressions
        19.2.2.5.2.6. Approximation by polynomials
        19.2.2.5.2.7. Approximation by rational functions
        19.2.2.5.2.8. Approximation with constraints
        19.2.2.5.2.9. Asymptotic approximations
        19.2.2.5.2.10. Asymptotic expansions (steepest descent, etc.)
        19.2.2.5.2.11. Best constraints
        19.2.2.5.2.12. Chebyshev systems
        19.2.2.5.2.13. Degree of approximation
        19.2.2.5.2.14. Inequalities in approximation (Bernstein, Jackson, Nikolskii)
        19.2.2.5.2.15. Interpolation
        19.2.2.5.2.16. Inverse theorems
        19.2.2.5.2.17. Pade approximation
        19.2.2.5.2.18. Rate of convergence
        19.2.2.5.2.19. Saturation
        19.2.2.5.2.20. Series expansions (not Fourier series)
        19.2.2.5.2.20.1. Lidstone series
        19.2.2.5.2.20.2. Taylor series
        19.2.2.5.2.21. Simultaneous approximation
        19.2.2.5.2.22. Spline approximation
        19.2.2.5.2.23. Uniqueness of best approximation
      - 19.2.2.5.3. Error analysis
      - 19.2.2.5.4. Interval analysis
      - 19.2.2.5.5. Nonlinear algebraic / transcendental equations
      - 19.2.2.5.6. Numanalysis in abstract spaces
      - 19.2.2.5.7. Numerical linear algebra
      - 19.2.2.5.8. Operations research
      - 19.2.2.5.9. Recurrence relations
  - 19.2.3. Computer sciences
  - 19.2.4. Foundations and mathematical logic
    - 19.2.4.1. Algebraic logic
    - 19.2.4.2. Computability and recursion theory
    - 19.2.4.3. General logic
    - 19.2.4.4. Model theory
    - 19.2.4.5. Proof theory and constructive mathematics
    - 19.2.4.6. Set theory
  - 19.2.5. Geometry
    - 19.2.5.1. Algebraic topology
      - 19.2.5.1.1. (Co)homology theories
      - 19.2.5.1.2. Fiber spaces & bundles
      - 19.2.5.1.3. Homotopy groups
      - 19.2.5.1.4. Homotopy theory
      - 19.2.5.1.5. Operations & obstructions
      - 19.2.5.1.6. Special sequences
    - 19.2.5.2. Convex and discrete geometry
      - 19.2.5.2.1. Convexity
      - 19.2.5.2.2. Polytopes & polyhedra
    - 19.2.5.3. Differential geometry
      - 19.2.5.3.1. Classical differential geometry
      - 19.2.5.3.2. Global differential geometry
      - 19.2.5.3.3. Local differential geometry
      - 19.2.5.3.4. Symplectic/contact geometry
    - 19.2.5.4. General geometry
      - 19.2.5.4.1. (Non)linear incidence geometry
      - 19.2.5.4.2. Analytic and descriptive geometry
      - 19.2.5.4.3. Distance geometry
      - 19.2.5.4.4. Elementary Euclidean geometry
      - 19.2.5.4.5. Finite geometry / special closure structures
      - 19.2.5.4.6. Geometric closure systems
      - 19.2.5.4.7. Geometric constructions
      - 19.2.5.4.8. Geometric order structures
      - 19.2.5.4.9. Incidence groups
      - 19.2.5.4.10. Metric geometry & triangulation
      - 19.2.5.4.11. Ordered geometries
      - 19.2.5.4.12. Real and complex geometry
      - 19.2.5.4.13. Ring geometry (Hjelmslev, Barbilian, etc.)
      - 19.2.5.4.14. Topological geometry
    - 19.2.5.5. General topology
      - 19.2.5.5.1. Maps / spaces
      - 19.2.5.5.2. Metric spaces & other richer structures
      - 19.2.5.5.3. Nonstandard topology
      - 19.2.5.5.4. Peculiar spaces
      - 19.2.5.5.5. Special properties
    - 19.2.5.6. Manifolds
      - 19.2.5.6.1. Homology/homotopy of topoligcal groups
      - 19.2.5.6.2. PL-topology
      - 19.2.5.6.3. Topological manifolds
      - 19.2.5.6.4. Topological transformation groups
  - 19.2.6. Mathematical sciences / mathematical physics
    - 19.2.6.1. Astronomy and astrophysics
    - 19.2.6.2. Biostatistics
    - 19.2.6.3. Chemistry mathematics
    - 19.2.6.4. Classical thermodynamics, heat transfer
    - 19.2.6.5. Fluid mechanics
      - 19.2.6.5.1. Flows
        19.2.6.5.1.1. Hypersonic
        19.2.6.5.1.2. Supersonic
        19.2.6.5.1.3. Transonic
      - 19.2.6.5.2. Rarefied gas flows
      - 19.2.6.5.3. Rotating fluids
      - 19.2.6.5.4. Shock/blast waves
    - 19.2.6.6. Geophysics
      - 19.2.6.6.1. Geodesy
      - 19.2.6.6.2. Geostatistics
    - 19.2.6.7. Mathematical biology / theoretical biology
    - 19.2.6.8. Mechanics of particles and systems
    - 19.2.6.9. Mechanics of solids
    - 19.2.6.10. Medical mathematics
    - 19.2.6.11. Optics, electromagnetic theory
    - 19.2.6.12. Quantum theory
    - 19.2.6.13. Relativity and gravitational theory
    - 19.2.6.14. Statistical mechanics, structure of matter
    - 19.2.6.15. Systems theory and control
  - 19.2.7. Probability and statistics
    - 19.2.7.1. Distribution theory
    - 19.2.7.2. Probability theory
      - 19.2.7.2.1. Combinatorial probability
      - 19.2.7.2.2. Geometric probability
      - 19.2.7.2.3. Limit theorems
      - 19.2.7.2.4. Markov processes
      - 19.2.7.2.5. Stochastic analysis
    - 19.2.7.3. Statistics
      - 19.2.7.3.1. (Non)parametric inference
      - 19.2.7.3.2. Decision theory
      - 19.2.7.3.3. Linear inference & regression
      - 19.2.7.3.4. Multivariate analysis
      - 19.2.7.3.5. Sampling theory
      - 19.2.7.3.6. Sequential methods
      - 19.2.7.3.7. Statistical tables
      - 19.2.7.3.8. Sufficiency
      - 19.2.7.3.9. Survival analysis
- 19.3. Graph theory
- 19.4. Number theory

20. Month of June 02007 absence

21. Music
- 21.1. Gamma Ray
- 21.2. Helloween

22. Nanotechnology

23. Open Design

24. Philosophy
- 24.1. Transhumanism

25. Physics
- 25.1. 't Hooft's How to become a theoretical physicist outline
  - 25.1.1. 01. Languages
    - 25.1.1.1. English
    - 25.1.1.2. German
    - 25.1.1.3. Japanese
  - 25.1.2. 02. Primary mathematics
    - 25.1.2.1. Algebra
    - 25.1.2.2. Calculus
    - 25.1.2.3. Numbers
    - 25.1.2.4. Probability theory
    - 25.1.2.5. Set theory
    - 25.1.2.6. Trigonometry
  - 25.1.3. 03. Classical mechanics
    - 25.1.3.1. Action principle
    - 25.1.3.2. Elliptical orbits of planets
    - 25.1.3.3. Hamilton's equations and the Lagrangean
    - 25.1.3.4. Harmonic Oscillator
    - 25.1.3.5. Liquids and gases
    - 25.1.3.6. Many-body systems
    - 25.1.3.7. Navier-Stokes equations
    - 25.1.3.8. Poisson's brackets
    - 25.1.3.9. Static mechanics
      - 25.1.3.9.1. Forces
      - 25.1.3.9.2. Hydrostats
      - 25.1.3.9.3. Newton's laws
      - 25.1.3.9.4. Tensions
    - 25.1.3.10. Viscosity and friction
    - 25.1.3.11. Wave equations
  - 25.1.4. 04. Optics
    - 25.1.4.1. Caustics
    - 25.1.4.2. Doppler effect
    - 25.1.4.3. Fraction and reflection
    - 25.1.4.4. Huygen's principle of wave superposition
    - 25.1.4.5. Lenses and mirrors
    - 25.1.4.6. Telescopes and microscopes
    - 25.1.4.7. Wave fronts
    - 25.1.4.8. Wave propagation
  - 25.1.5. 05. Statistical mechanics and thermodynamics
    - 25.1.5.1. Boltzmann distribution
    - 25.1.5.2. Carnot cycle, entropy, heat engines
    - 25.1.5.3. Ising model
    - 25.1.5.4. Laws of thermodynamics
    - 25.1.5.5. Phase transitions and thermodynamical models
    - 25.1.5.6. Planck's radiation law (prelude to quantum mechanics)
  - 25.1.6. 06. Electronics
    - 25.1.6.1. Capacitors
    - 25.1.6.2. Diodes
    - 25.1.6.3. Inductors
    - 25.1.6.4. Ohm's law
    - 25.1.6.5. Transistors
  - 25.1.7. 07. Electromagnetism
    - 25.1.7.1. EM antenna
    - 25.1.7.2. EM emission and absorption of EM waves
    - 25.1.7.3. Gauge invariance
    - 25.1.7.4. Light scattering against objects
    - 25.1.7.5. Maxwell's laws in a medium
      - 25.1.7.5.1. At boundaries (fraction and reflection)
      - 25.1.7.5.2. In a box (wave guides)
      - 25.1.7.5.3. Vacuum and homogenous medium (electromagnetic waves)
    - 25.1.7.6. Maxwell's theory of electromagnetism
      - 25.1.7.6.1. Homogenous
      - 25.1.7.6.2. Inhomogeneous
    - 25.1.7.7. Vector potential
  - 25.1.8. 08. Quantum mechanics
    - 25.1.8.1. A particle in a box
    - 25.1.8.2. Bohr's atom
    - 25.1.8.3. Commutation rules of the operators
    - 25.1.8.4. Ehrenfest's theorem
    - 25.1.8.5. Hydorgen atom solution
    - 25.1.8.6. Introduction to quantum mechanical scattering
    - 25.1.8.7. Operators
      - 25.1.8.7.1. Angular momentum
      - 25.1.8.7.2. Annihilation
      - 25.1.8.7.3. Creation
      - 25.1.8.7.4. Energy
      - 25.1.8.7.5. Momentum
    - 25.1.8.8. Quantum harmonic oscillator
    - 25.1.8.9. Radio-active decay
    - 25.1.8.10. S-matrix
    - 25.1.8.11. Schrödinger's equation (with electric potential and magnetic field)
    - 25.1.8.12. Stark effect
    - 25.1.8.13. Zeeman effect
    - 25.1.8.14. de Broglie's relations (energy-frequency, momentum-wave number)
  - 25.1.9. 09. Atoms and molecules
    - 25.1.9.1. Atomic and molecular spectra
    - 25.1.9.2. Chemical bonding
    - 25.1.9.3. Emission and absorption of light
    - 25.1.9.4. Magnetic moment
    - 25.1.9.5. Orbitals
    - 25.1.9.6. Quantum selection rules
  - 25.1.10. 10. Solid state physics
    - 25.1.10.1. Bloch spectra
    - 25.1.10.2. Bragg reflection
    - 25.1.10.3. Conductors
    - 25.1.10.4. Crystal groups
    - 25.1.10.5. Dielectric and diamagnetic constants
    - 25.1.10.6. Electrons and holes
    - 25.1.10.7. Fermi level
    - 25.1.10.8. Hall effect
    - 25.1.10.9. Insulators
    - 25.1.10.10. Semiconductors
    - 25.1.10.11. Specific heat
    - 25.1.10.12. Superconductivity
    - 25.1.10.13. Transistor
  - 25.1.11. 11. Nuclear physics
    - 25.1.11.1. Droplet model
    - 25.1.11.2. Fission
    - 25.1.11.3. Fusion
    - 25.1.11.4. Isospin
    - 25.1.11.5. Isotopes
    - 25.1.11.6. Magic nuclei
    - 25.1.11.7. Nuclear quantum numbers
    - 25.1.11.8. Radioactivity
    - 25.1.11.9. Yukawa theory
  - 25.1.12. 12. Plasma physics
  - 25.1.13. 13. Advanced mathematics
    - 25.1.13.1. Difference equations
    - 25.1.13.2. Extremum principle and approximation techniques based on that
    - 25.1.13.3. Generating functions
    - 25.1.13.4. Group theory
    - 25.1.13.5. Hilbert space
    - 25.1.13.6. Introduction to the functional integral
    - 25.1.13.7. Lie group theory
    - 25.1.13.8. Tensors
    - 25.1.13.9. Topology
      - 25.1.13.9.1. Manifolds
    - 25.1.13.10. Vectors
  - 25.1.14. 14. Special relativity
    - 25.1.14.1. 4-tensors
    - 25.1.14.2. 4-vectors
    - 25.1.14.3. E=mc^2
    - 25.1.14.4. Lorentz contraction
    - 25.1.14.5. Lorentz transformation
    - 25.1.14.6. Relativistic Doppler effect
    - 25.1.14.7. Time dilation
    - 25.1.14.8. Transformation rules for the Maxwell field
  - 25.1.15. 15. Advanced quantum mechanics
    - 25.1.15.1. Advanced scattering theory
    - 25.1.15.2. Atomic transitions
    - 25.1.15.3. BCS Theory for superconductivity
    - 25.1.15.4. Bell inequalities
    - 25.1.15.5. Bose-Einstein Condensation
    - 25.1.15.6. Density matrix
    - 25.1.15.7. Dispersion relations
    - 25.1.15.8. Electrons and positrons
    - 25.1.15.9. Emission and absorption of light
    - 25.1.15.10. Extremum principle
    - 25.1.15.11. Hilbert space
    - 25.1.15.12. Interpretations of quantum mechanics
    - 25.1.15.13. Perturbation expansion
    - 25.1.15.14. Quantum Hall effect
    - 25.1.15.15. Relativistic quantum mechanics
      - 25.1.15.15.1. Dirac equation
      - 25.1.15.15.2. Finestructure
    - 25.1.15.16. Stimulated emission
    - 25.1.15.17. Superliquid helium
    - 25.1.15.18. WKB approximation
  - 25.1.16. 16. Phenomenology
    - 25.1.16.1. Astrophysics
      - 25.1.16.1.1. Galaxies
      - 25.1.16.1.2. Planetary system
      - 25.1.16.1.3. Red shift
      - 25.1.16.1.4. Stars
      - 25.1.16.1.5. Supernovae
    - 25.1.16.2. Cosmic rays
    - 25.1.16.3. Cosmology
      - 25.1.16.3.1. Cosmological models
      - 25.1.16.3.2. Inflationary universe theories
      - 25.1.16.3.3. Microwave background radiation
    - 25.1.16.4. Detection techniques
    - 25.1.16.5. Materials science
    - 25.1.16.6. Nuclear isotopes
    - 25.1.16.7. Phase transitions
    - 25.1.16.8. Subatomic particles
      - 25.1.16.8.1. Baryons
      - 25.1.16.8.2. Leptons
      - 25.1.16.8.3. Mesons
      - 25.1.16.8.4. Photons
      - 25.1.16.8.5. Quarks
  - 25.1.17. 17. General relativity
    - 25.1.17.1. Cosmological models
    - 25.1.17.2. Einstein's gravity equation
    - 25.1.17.3. Gravitational lensing
    - 25.1.17.4. Gravitational radiation
    - 25.1.17.5. Periastron shift
    - 25.1.17.6. Reissner-Nordström black hole
    - 25.1.17.7. Schwarzschild black hole
    - 25.1.17.8. Space-time curvature
    - 25.1.17.9. The metric tensor
  - 25.1.18. 18. Quantum Field Theory
    - 25.1.18.1. Antiparticles
    - 25.1.18.2. Asymptotic freedom
    - 25.1.18.3. BRST symmetry
    - 25.1.18.4. Bethe-Salpeter equation
    - 25.1.18.5. CPT theorem
    - 25.1.18.6. Construction of the Standard Model
    - 25.1.18.7. Faddeev-Popov determinant
    - 25.1.18.8. Feynman rules
    - 25.1.18.9. Fock space
    - 25.1.18.10. Gauge fixing
    - 25.1.18.11. Goldstone mode
    - 25.1.18.12. Higgs mechanism
    - 25.1.18.13. Loop diagrams
    - 25.1.18.14. Magnetic monopoles and instantons
    - 25.1.18.15. Operator product expansion
    - 25.1.18.16. P and CP violation
    - 25.1.18.17. Particles and fields
    - 25.1.18.18. Permanent quark confinement mechanism
    - 25.1.18.19. Perturbation expansion
    - 25.1.18.20. QFT Interactions
    - 25.1.18.21. Quantum gauge theory
    - 25.1.18.22. Renormalization (Pauli-Villars; dimensional ren.)
    - 25.1.18.23. Renormalization group
    - 25.1.18.24. Slavnov identities
    - 25.1.18.25. Solitons, Skyrmions
    - 25.1.18.26. Spin and statistics connection
    - 25.1.18.27. Spontaneous symmetry breaking
    - 25.1.18.28. Supersymmetry
    - 25.1.18.29. The 1/N expansion
    - 25.1.18.30. The Gell-Mann-Lévy sigma model for pions and nuclei
    - 25.1.18.31. Unitarity, Causality and dispersion relations
  - 25.1.19. 19. Superstring Theory
  - 25.1.20. Computational physics
  - 25.1.21. Field Theory
    - 25.1.21.1. Classical
    - 25.1.21.2. Quantum
      - 25.1.21.2.1. Dirac-spinor fields
      - 25.1.21.2.2. Scalar fields
      - 25.1.21.2.3. Yang-Mills vector fields
- 25.2. Gravity
- 25.3. Lasers
- 25.4. Nuketech
- 25.5. Particle accelerators
- 25.6. Ultracold physics
  - 25.6.1. Atom lasers
- 25.7. Vacuum technology

26. School
- 26.1. History
- 26.2. Not so entertaining literature

27. Scifi
- 27.1. Orion's Arm

28. Searches
- 28.1. Google bombs

29. Sessions
- 29.1. Sess
  - 29.1.1. Opera stuff

30. Space
- 30.1. Aerospace
  - 30.1.1. Jet engines
  - 30.1.2. Rockets
- 30.2. Astronomy
- 30.3. Astrophysics
- 30.4. Astropoetics
- 30.5. Astroscale engineering (megascale)
  - 30.5.1. Dyson sphere
- 30.6. Cosmology
- 30.7. Luna / Our moon
- 30.8. Mars
- 30.9. Spacecraft design
- 30.10. Terraforming

31. Superkuh
- 31.1. Acoustics
  - 31.1.1. Displays
  - 31.1.2. Infrasound
    - 31.1.2.1. 1 to 10 Hertz
  - 31.1.3. Phonography
  - 31.1.4. Ultrasound
- 31.2. Aspergers
  - 31.2.1. Comorbid Treatment
  - 31.2.2. Diagnosis
  - 31.2.3. Interactions
- 31.3. Astronomy
- 31.4. Bio
  - 31.4.1. Anatomy
    - 31.4.1.1. Dermatology
    - 31.4.1.2. Spine Structure and Neuroanatomy
  - 31.4.2. Biochem/Tech/Genetics
    - 31.4.2.1. Animat
    - 31.4.2.2. Cell Culture
    - 31.4.2.3. Chronobiology
    - 31.4.2.4. Genetics
      - 31.4.2.4.1. Eukaryotic
        31.4.2.4.1.1. Engineering
        31.4.2.4.1.2. GNXP
        31.4.2.4.1.3. Growth Protocol
        31.4.2.4.1.4. Sequencing
        31.4.2.4.1.5. Tech
      - 31.4.2.4.2. Prokaryotic
        31.4.2.4.2.1. Engineering
        31.4.2.4.2.2. GNXP
        31.4.2.4.2.3. Growth Protocol
        31.4.2.4.2.4. Sequencing
        31.4.2.4.2.5. Tech
    - 31.4.2.5. Molecular Biology
      - 31.4.2.5.1. Cryptchrome 2
      - 31.4.2.5.2. Optical Tweezers
    - 31.4.2.6. Neuroscience
      - 31.4.2.6.1. Blood Brain Barrier
      - 31.4.2.6.2. Chemistry
        31.4.2.6.2.1. 5HT
        31.4.2.6.2.2. Addiction
        31.4.2.6.2.3. Emotion
        31.4.2.6.2.4. Receptor Space
        31.4.2.6.2.5. SAR
        31.4.2.6.2.6. Specifics
        31.4.2.6.2.6.1. Alcohol
        31.4.2.6.2.6.2. Analegesics
        31.4.2.6.2.6.3. Hormones
        31.4.2.6.2.6.3.1. Oxytocin and Vasopressin
        31.4.2.6.2.6.4. Phenethylamines
        31.4.2.6.2.6.4.1. MDMA
        31.4.2.6.2.6.5. Tryptamines
        31.4.2.6.2.6.5.1. Psilocin
        31.4.2.6.2.6.5.1.1. Cultivation
        31.4.2.6.2.6.5.1.1.1. Growing Mediums
        31.4.2.6.2.6.5.1.2. Tryptamine Based Substrates
      - 31.4.2.6.3. Neurostimulation
      - 31.4.2.6.4. Nootropics
      - 31.4.2.6.5. Perception
    - 31.4.2.7. Proteomics
      - 31.4.2.7.1. Bio Pathways
      - 31.4.2.7.2. Folding
        31.4.2.7.2.1. Assemblies
        31.4.2.7.2.2. Domains
        31.4.2.7.2.3. Motiffs
        31.4.2.7.2.4. Primary
        31.4.2.7.2.5. Secondary
        31.4.2.7.2.6. Tertiary
      - 31.4.2.7.3. Melanocortin
      - 31.4.2.7.4. Secondary Messengers
      - 31.4.2.7.5. Soliton Theory
      - 31.4.2.7.6. Work Enzymes
    - 31.4.2.8. Tech
  - 31.4.3. Biosecurity
  - 31.4.4. Tactile Resolution
    - 31.4.4.1. Searches
- 31.5. Blogs
  - 31.5.1. Chemistry
  - 31.5.2. Computer Science
  - 31.5.3. Neuroscience
  - 31.5.4. Personal
  - 31.5.5. Physics
  - 31.5.6. Politics
  - 31.5.7. Science and Tech
    - 31.5.7.1. Older
- 31.6. Books
- 31.7. Business
- 31.8. Chemistry
  - 31.8.1. Blogs
  - 31.8.2. Lectures
  - 31.8.3. Old
    - 31.8.3.1. Silly Explosives
  - 31.8.4. Retrosynthetic
- 31.9. Computer
  - 31.9.1. Complex and Non-Linear Systems
    - 31.9.1.1. Bots
      - 31.9.1.1.1. Kuhbot
    - 31.9.1.2. Cellular Automata
    - 31.9.1.3. Expert Systems
    - 31.9.1.4. Genetic Algorithms
    - 31.9.1.5. Intro and FAQ
    - 31.9.1.6. Language Processing
    - 31.9.1.7. Linguistics
    - 31.9.1.8. Machine Vision
    - 31.9.1.9. Neural Networks
      - 31.9.1.9.1. Examples
    - 31.9.1.10. Programming
      - 31.9.1.10.1. Lisp
      - 31.9.1.10.2. Perl
      - 31.9.1.10.3. Prolog
    - 31.9.1.11. Vector Calculus
  - 31.9.2. Diagram
  - 31.9.3. FUSE
  - 31.9.4. I/O
    - 31.9.4.1. Paralell
    - 31.9.4.2. Serial
    - 31.9.4.3. USB
  - 31.9.5. Image Processing
  - 31.9.6. Linux
  - 31.9.7. MySQL
  - 31.9.8. Networking
  - 31.9.9. Old
    - 31.9.9.1. Hardware
      - 31.9.9.1.1. CD-RW
      - 31.9.9.1.2. Gfx Card
      - 31.9.9.1.3. HD
      - 31.9.9.1.4. Handheld
      - 31.9.9.1.5. Memory
      - 31.9.9.1.6. Motherboard
      - 31.9.9.1.7. Processor
    - 31.9.9.2. New Computer Research
      - 31.9.9.2.1. AMD
      - 31.9.9.2.2. Abit IS7-G
      - 31.9.9.2.3. Intel
    - 31.9.9.3. Old
      - 31.9.9.3.1. Hacking
        31.9.9.3.1.1. DNS
        31.9.9.3.1.2. Old
        31.9.9.3.1.2.1. Clothing
        31.9.9.3.1.2.2. Exploits
        31.9.9.3.1.2.3. Multipurpose
        31.9.9.3.1.2.4. Portals
        31.9.9.3.1.2.5. Reality Cracking
        31.9.9.3.1.2.6. Socialogy
        31.9.9.3.1.2.7. Tools
        31.9.9.3.1.2.7.1. DoS
        31.9.9.3.1.2.7.2. Keyloggers
        31.9.9.3.1.2.7.3. Lame
        31.9.9.3.1.2.7.4. Other
        31.9.9.3.1.2.7.5. Trojans
        31.9.9.3.1.2.8. Tutorials
        31.9.9.3.1.2.9. Zebulun
        31.9.9.3.1.2.9.1. Tools
        31.9.9.3.1.2.9.2. Unix
      - 31.9.9.3.2. Hotline
        31.9.9.3.2.1. DivX
        31.9.9.3.2.2. IR
        31.9.9.3.2.3. Inverted Reality
      - 31.9.9.3.3. Web Design
        31.9.9.3.3.1. CSS
        31.9.9.3.3.2. Graphic Design
        31.9.9.3.3.3. HTML
        31.9.9.3.3.4. Inspiration
        31.9.9.3.3.5. Old
        31.9.9.3.3.5.1. Graphics
        31.9.9.3.3.5.1.1. 3ds Max
        31.9.9.3.3.5.1.2. Bryce
        31.9.9.3.3.5.1.3. Flash
        31.9.9.3.3.5.1.4. Milkshape
        31.9.9.3.3.5.1.5. PSP
        31.9.9.3.3.5.1.6. Photoshop
        31.9.9.3.3.5.1.7. Poser
        31.9.9.3.3.5.1.8. Tutorials
        31.9.9.3.3.5.2. Websites--Hosting--Servers
        31.9.9.3.3.5.2.1. My Sites
        31.9.9.3.3.5.2.2. Personal Server
        31.9.9.3.3.5.2.3. Shells
        31.9.9.3.3.5.2.4. Web Servers
        31.9.9.3.3.6. PHP
        31.9.9.3.3.7. XHTML
    - 31.9.9.4. Owned Project
      - 31.9.9.4.1. Closure
      - 31.9.9.4.2. Control
      - 31.9.9.4.3. Emumeration
      - 31.9.9.4.4. Entrance
        31.9.9.4.4.1. Default Passwords
      - 31.9.9.4.5. Exploitation
      - 31.9.9.4.6. Packet Sniffing
      - 31.9.9.4.7. Perl!
      - 31.9.9.4.8. Tracks
  - 31.9.10. Opera
  - 31.9.11. Programing
    - 31.9.11.1. ASM
    - 31.9.11.2. C
    - 31.9.11.3. Old
      - 31.9.11.3.1. C
      - 31.9.11.3.2. C++
      - 31.9.11.3.3. Java
      - 31.9.11.3.4. Javascript$DHTML
      - 31.9.11.3.5. Pascal
      - 31.9.11.3.6. Perl
      - 31.9.11.3.7. Python
      - 31.9.11.3.8. Qbasic
      - 31.9.11.3.9. Visual Basic
    - 31.9.11.4. PHP
    - 31.9.11.5. Perl
  - 31.9.12. Security
  - 31.9.13. Skynet
    - 31.9.13.1. DD-WRT
    - 31.9.13.2. FairuzaWRT
    - 31.9.13.3. Mesh
      - 31.9.13.3.1. Freifunk
    - 31.9.13.4. OpenWRT
    - 31.9.13.5. WPA Cracking
    - 31.9.13.6. What a Mesh
    - 31.9.13.7. v5
  - 31.9.14. Synergy
  - 31.9.15. Telcom
    - 31.9.15.1. Asterix
    - 31.9.15.2. Cable
  - 31.9.16. VM
  - 31.9.17. Wearable
    - 31.9.17.1. 802.11bg
    - 31.9.17.2. Augmented Reality
    - 31.9.17.3. Display
    - 31.9.17.4. Energy
    - 31.9.17.5. Gumstix
    - 31.9.17.6. HD
    - 31.9.17.7. Interface
    - 31.9.17.8. Keyboards
    - 31.9.17.9. Micro-ATX
    - 31.9.17.10. Mini-ITX
    - 31.9.17.11. Old
    - 31.9.17.12. Plesmomyograph
    - 31.9.17.13. Sensors
    - 31.9.17.14. Software
    - 31.9.17.15. Speech I/O
    - 31.9.17.16. VIA-Embedded
  - 31.9.18. Web
  - 31.9.19. Wireless
- 31.10. Electronics
  - 31.10.1. 555
  - 31.10.2. ADC
  - 31.10.3. AVR
    - 31.10.3.1. Design
    - 31.10.3.2. Dev Tools
    - 31.10.3.3. RTOS
    - 31.10.3.4. Tutorial
  - 31.10.4. Audio
  - 31.10.5. Bio
    - 31.10.5.1. Bone Conduction
    - 31.10.5.2. EEG
    - 31.10.5.3. Electrocardiogram
    - 31.10.5.4. Electromyograph
    - 31.10.5.5. Electrooculogram
    - 31.10.5.6. Galvanic Vestibular
      - 31.10.5.6.1. bio_side
    - 31.10.5.7. MRI
    - 31.10.5.8. Magnetic
      - 31.10.5.8.1. Physical Rotation
      - 31.10.5.8.2. Technical
    - 31.10.5.9. Near-IR Brain Imaging
    - 31.10.5.10. Photoplethysmograph
    - 31.10.5.11. Software//Formats
    - 31.10.5.12. Ultrasound
  - 31.10.6. Coilguns
  - 31.10.7. DAC
  - 31.10.8. DDS
  - 31.10.9. DSP
  - 31.10.10. FPGA
  - 31.10.11. GNU Radio
  - 31.10.12. GPS
  - 31.10.13. High Power Magnetics
  - 31.10.14. High Voltage
    - 31.10.14.1. Electrostatic
      - 31.10.14.1.1. Lorente
    - 31.10.14.2. Spiral Impulse Gen.
    - 31.10.14.3. Tesla Coil
      - 31.10.14.3.1. DC Resonant
      - 31.10.14.3.2. DRSSTC
      - 31.10.14.3.3. IGBT
  - 31.10.15. I2C
  - 31.10.16. LCD/Neon/LED
  - 31.10.17. Lasers
  - 31.10.18. Light Sensor
  - 31.10.19. Logic ICs
  - 31.10.20. MEMs Mirror Disp.
  - 31.10.21. MagStrip
  - 31.10.22. Magazines
  - 31.10.23. Matlab
  - 31.10.24. Microwave-Maser
  - 31.10.25. Multiplexing
  - 31.10.26. Old
    - 31.10.26.1. Electronics Parts Supply
      - 31.10.26.1.1. Battery
      - 31.10.26.1.2. Capacitor
      - 31.10.26.1.3. Resistor
      - 31.10.26.1.4. Tools
      - 31.10.26.1.5. Transformer
      - 31.10.26.1.6. Transistor
      - 31.10.26.1.7. Wire
    - 31.10.26.2. High Voltage
      - 31.10.26.2.1. FUSOR
        31.10.26.2.1.1. Need to know
      - 31.10.26.2.2. Tesla Coil
    - 31.10.26.3. Personal Sites
  - 31.10.27. Osciloscope
  - 31.10.28. PCB
  - 31.10.29. PIC
  - 31.10.30. POV
    - 31.10.30.1. Multiplexing
  - 31.10.31. Parts
  - 31.10.32. Power
  - 31.10.33. Programable Fuse
  - 31.10.34. Radio
  - 31.10.35. Robotics
  - 31.10.36. SMD
  - 31.10.37. Semiconductors
  - 31.10.38. Sense Heterodyne
  - 31.10.39. Serial
  - 31.10.40. Theory
  - 31.10.41. USB
  - 31.10.42. Ultrasonic
  - 31.10.43. Voltage to Frequency
  - 31.10.44. Vreg
- 31.11. Engineering
  - 31.11.1. Batteries
  - 31.11.2. Bump Key
  - 31.11.3. CNC Foam
  - 31.11.4. Communication
  - 31.11.5. Exoskeleton
  - 31.11.6. Flight
    - 31.11.6.1. Fanwing
  - 31.11.7. Fluid Dynamics
    - 31.11.7.1. Microfluidics
    - 31.11.7.2. Surfactants
    - 31.11.7.3. Vortices
  - 31.11.8. GPS
  - 31.11.9. Gyroscopes
  - 31.11.10. Haptics
  - 31.11.11. Hovercraft
  - 31.11.12. Laser Microphone
  - 31.11.13. Motor Generators
  - 31.11.14. OxyExtractorLung
  - 31.11.15. Plasma
  - 31.11.16. Project Orion
  - 31.11.17. Pulse Jet
  - 31.11.18. Pykrete
  - 31.11.19. Radio
  - 31.11.20. Rocketry
    - 31.11.20.1. H202 Bipropellants
  - 31.11.21. Shelter
  - 31.11.22. Solar Power
  - 31.11.23. Space Elevator
  - 31.11.24. Tensegrity
    - 31.11.24.1. Cellular
  - 31.11.25. Tomography
  - 31.11.26. Underwater
  - 31.11.27. Weather Baloons
  - 31.11.28. Wood Gas
- 31.12. Entertainment
  - 31.12.1. Comics
  - 31.12.2. Filters
  - 31.12.3. Games
  - 31.12.4. Just Damn Cool
    - 31.12.4.1. Games
      - 31.12.4.1.1. FPS
      - 31.12.4.1.2. Go
      - 31.12.4.1.3. Other
      - 31.12.4.1.4. RPG
      - 31.12.4.1.5. Real Life
        31.12.4.1.5.1. AirSoft
    - 31.12.4.2. Old
      - 31.12.4.2.1. Web Comics
    - 31.12.4.3. Oldish
  - 31.12.5. Phone
  - 31.12.6. Video
  - 31.12.7. Writing
    - 31.12.7.1. Everything2 Nodes
- 31.13. Forums
- 31.14. H5N1
  - 31.14.1. Drugs
  - 31.14.2. News
  - 31.14.3. Overviews
  - 31.14.4. Respirators
  - 31.14.5. Survivalist
  - 31.14.6. Synth
- 31.15. Jobs
- 31.16. Light/Optics
  - 31.16.1. Holography
  - 31.16.2. Infared
  - 31.16.3. LED
  - 31.16.4. Lasers
    - 31.16.4.1. Nitrogen
    - 31.16.4.2. Phaser
  - 31.16.5. Photography
  - 31.16.6. Short Arc Lamps
  - 31.16.7. Solar Death Beam
- 31.17. Math
  - 31.17.1. Calculators
  - 31.17.2. Soliton
  - 31.17.3. Stochastic Resonance
    - 31.17.3.1. Applied
  - 31.17.4. Ternary
  - 31.17.5. Topology
- 31.18. Misc Sci
  - 31.18.1. Entymology
  - 31.18.2. Forensics
  - 31.18.3. Magnetics
    - 31.18.3.1. Ferrofluid
    - 31.18.3.2. Magnetic Weapons
      - 31.18.3.2.1. Coil Gun
      - 31.18.3.2.2. EMP
  - 31.18.4. Mineral Accretion
  - 31.18.5. Nanotechnology
  - 31.18.6. Nuclear Isomers
  - 31.18.7. Nuclear Related
  - 31.18.8. Pyrotechnics
    - 31.18.8.1. Old
      - 31.18.8.1.1. Explosives
      - 31.18.8.1.2. Forum Topics
      - 31.18.8.1.3. Supplies
  - 31.18.9. Quantum Physics
  - 31.18.10. STINET DTIC
  - 31.18.11. Search/General Resources
  - 31.18.12. Thermodynamics
  - 31.18.13. Transhumanism
    - 31.18.13.1. Intelligence Augmentation
    - 31.18.13.2. Mortality
    - 31.18.13.3. Physical Augmentation
      - 31.18.13.3.1. Galvanic Stim Vestibular Organ
- 31.19. Number Sciences
- 31.20. Old
  - 31.20.1. Bad Links
  - 31.20.2. Local
  - 31.20.3. RSS
  - 31.20.4. School
    - 31.20.4.1. 1germantranslator
    - 31.20.4.2. Free Speech
    - 31.20.4.3. Timeline
  - 31.20.5. Trash
    - 31.20.5.1. AI
      - 31.20.5.1.1. Bots
        31.20.5.1.1.1. Kuhbot
      - 31.20.5.1.2. Cellular Automata
      - 31.20.5.1.3. Expert Systems
      - 31.20.5.1.4. Genetic Algorithms
      - 31.20.5.1.5. Intro and FAQ
      - 31.20.5.1.6. Language Processing
      - 31.20.5.1.7. Linguistics
      - 31.20.5.1.8. Neural Networks
        31.20.5.1.8.1. Examples
      - 31.20.5.1.9. Programming
        31.20.5.1.9.1. Lisp
        31.20.5.1.9.2. Perl
        31.20.5.1.9.3. Prolog
      - 31.20.5.1.10. Vector Calculus
    - 31.20.5.2. Anime
      - 31.20.5.2.1. Download
      - 31.20.5.2.2. Fan Media
      - 31.20.5.2.3. Manga
      - 31.20.5.2.4. Shows
        31.20.5.2.4.1. Cowboy Bebop
        31.20.5.2.4.2. FLCL
        31.20.5.2.4.3. Hellsing
        31.20.5.2.4.4. NGE
      - 31.20.5.2.5. To Watch
    - 31.20.5.3. Art
      - 31.20.5.3.1. PS
    - 31.20.5.4. Art
      - 31.20.5.4.1. PS
    - 31.20.5.5. Blogs
      - 31.20.5.5.1. Personal
      - 31.20.5.5.2. Politics
      - 31.20.5.5.3. Science and Tech
    - 31.20.5.6. Computer Technology
      - 31.20.5.6.1. Hardware
        31.20.5.6.1.1. CD-RW
        31.20.5.6.1.2. Gfx Card
        31.20.5.6.1.3. HD
        31.20.5.6.1.4. Handheld
        31.20.5.6.1.5. Memory
        31.20.5.6.1.6. Motherboard
        31.20.5.6.1.7. Processor
      - 31.20.5.6.2. MySQL
      - 31.20.5.6.3. New Computer Research
        31.20.5.6.3.1. AMD
        31.20.5.6.3.2. Abit IS7-G
        31.20.5.6.3.3. Intel
      - 31.20.5.6.4. Old
        31.20.5.6.4.1. Hacking
        31.20.5.6.4.1.1. DNS
        31.20.5.6.4.1.2. Old
        31.20.5.6.4.1.2.1. Clothing
        31.20.5.6.4.1.2.2. Exploits
        31.20.5.6.4.1.2.3. Multipurpose
        31.20.5.6.4.1.2.4. Portals
        31.20.5.6.4.1.2.5. Reality Cracking
        31.20.5.6.4.1.2.6. Socialogy
        31.20.5.6.4.1.2.7. Tools
        31.20.5.6.4.1.2.7.1. DoS
        31.20.5.6.4.1.2.7.2. Keyloggers
        31.20.5.6.4.1.2.7.3. Lame
        31.20.5.6.4.1.2.7.4. Other
        31.20.5.6.4.1.2.7.5. Trojans
        31.20.5.6.4.1.2.8. Tutorials
        31.20.5.6.4.1.2.9. Zebulun
        31.20.5.6.4.1.2.9.1. Tools
        31.20.5.6.4.1.2.9.2. Unix
        31.20.5.6.4.2. Hotline
        31.20.5.6.4.2.1. DivX
        31.20.5.6.4.2.2. IR
        31.20.5.6.4.2.3. Inverted Reality
        31.20.5.6.4.3. Web Design
        31.20.5.6.4.3.1. CSS
        31.20.5.6.4.3.2. Graphic Design
        31.20.5.6.4.3.3. HTML
        31.20.5.6.4.3.4. Inspiration
        31.20.5.6.4.3.5. Old
        31.20.5.6.4.3.5.1. Graphics</