Differences between revisions 3 and 50 (spanning 47 versions)
Revision 3 as of 2009-02-28 23:33:43
Size: 1886
Editor: ErikJacobson
Comment:
Revision 50 as of 2009-04-18 18:21:35
Size: 2244
Editor: JoseGuzman
Comment:
Deletions are marked like this. Additions are marked like this.
Line 1: Line 1:
Describe days13/projects/sagenewbiew here. = Sage Primers =
Line 3: Line 3:
LINKS: <<TableOfContents>>
Line 5: Line 5:
http://docutils.sourceforge.net/rst.html
Line 7: Line 6:
Sage Tutorial == Done / In Progress ==
Line 9: Line 8:
Goals:     * 0. Sage Primer Design Principles [[attachment:Sage Primer Design Principles.pdf]] [[attachment:primer_design_principles.rtf]]
Line 11: Line 10:
1) Accessible to high school math teachers and undergraduate mathematics majors.     * 1. Basics
Line 13: Line 12:
2) Anticipated user desires           * 1.1. Primer Template: An Example [[attachment:primer_template_example.sws]]
Line 15: Line 14:
a. Content specific modules           * 1.2. Sage as a Smart Calculator [[attachment:basics.smart_calculator_0.5.sws]]
Line 17: Line 16:
i. Quadratic Forms           * 1.3. Basic 2D plotting with Sage [[attachment:Plotting_with_Sage.sws]]
Line 19: Line 18:
ii. Group theory           * 1.4. Sage Devel Basics [Erik, Aly] [[attachment:dev_for_newbies.html]]-this needs to be restified., [[attachment: development_for_newbies.sws]]
Line 21: Line 20:
iii. Abstract algebra     * 2. Calculus
Line 23: Line 22:
iv. Calculus           * 2.1. Differential Calculus [[attachment:calculus.differential_calculus_1.0.sws]]
Line 25: Line 24:
v. Number theory           * 2.2. Integral Calculus [Sourav]
Line 27: Line 26:
vi. High school algebra / trigonometry / precalculus     * 3. Linear Algebra
Line 29: Line 28:
vii. Probability           * 3.1. Matrix Algebra [Sourav]
Line 31: Line 30:
viii. Statistics     * 4. Abstract Algebra
Line 33: Line 32:
b. Plotting 2 and 3 dimensions           * 4.1. Group Theory [[attachment:group_theory.sws]] (by Robert Beezer)
Line 35: Line 34:
c. Sage math functions (sage as calculator), sage constants     * 5. Number Theory
Line 37: Line 36:
d. Generate Classroom examples           * 5.1. Elementary Number Theory I [[attachment:number_theory.primes_0.5.sws]]
Line 39: Line 38:
i. show (), latex()           * 5.2. Elementary Number Theory II [Erik]
Line 41: Line 40:
ii. matplotlab           * 5.5. Quadratic Forms [[attachment:quadratic_forms.sws]]
Line 43: Line 42:
3) Demonstrate SAGE functionality:           * 5.7. Quaternion Algebra [Sourav]
Line 45: Line 44:
a. Primes     * 9. About this document ...
Line 47: Line 46:
b. Random numbers
Line 49: Line 47:
c. Plotting
Line 51: Line 48:
d. Interact == To Do ==
Line 53: Line 50:
e. Sage data types     * 1. Basics
Line 55: Line 52:
f. Email(?)           * 1.3. Programming in Sage
Line 57: Line 54:
4) Programming           * 1.5. 2D and 3D Plotting in Sage [JoseGuzman]
Line 59: Line 56:
a. Types, casting, relevant Sage data types           * 1.6. Interact in Sage [Erik]
Line 61: Line 58:
b. Lists, tuples     * 2. Calculus
Line 63: Line 60:
c. Control operators (if, then, else, logical operators, in, srange())           * 2.3. Multivariate Calculus
Line 65: Line 62:
d. Loops           * 2.4. Taylor Series and Infinite Sums
Line 67: Line 64:
i. For, in, srange(), range()           * 2.5. Differential Equations
Line 69: Line 66:
e. Functions     * 3. Linear Algebra
Line 71: Line 68:
f. Recursion           * 3.2. Vector Spaces [Sourav]
Line 73: Line 70:
5) Topics     * 4. Abstract Algebra
Line 75: Line 72:
a. Primes and factorization           * 4.2. Rings and Fields [Erik]
Line 77: Line 74:
i. Given a random number, is it a prime?     * 5. Number Theory
Line 79: Line 76:
1. Modular division           * 5.3. Cryptography [Dan]
Line 81: Line 78:
a. random()           * 5.4. Elliptic Curves [Aly]
Line 83: Line 80:
b. Factor()           * 5.6. Automorphic Forms
Line 85: Line 82:
2. Euclidean algorithm           * 5.8. Modular Forms
Line 87: Line 84:
a. Recursion     * 6. Combinatorics
Line 89: Line 86:
b. gcd()           * 6.1. Counting
Line 91: Line 88:
3. primality testing           * 6.2. Graph Theory
Line 93: Line 90:
a. for loops     * 7. Geometry
Line 95: Line 92:
b. range()     * 8. Statistics
Line 97: Line 94:
c. is_prime()           * 8.1. Statistical Methods [Erik]
Line 99: Line 96:
ii. How many primes are there?           * 8.2. Probability [Erik]
Line 101: Line 98:
1. prime_pi()

2. plotting example

iii. Where are the primes?

1. Density of primes

2. primes()

3. Arithemtic sequences of primes

b. Diophantine equations

i. Linear Diophantine equation

1. extended euclidean algorithm

2. recursion vs iteration

ii. diagonal quadratic forms; sums of squares (ENT p. 25)

1. Pythagorean triples and generating them

2. Graphing the Pythagorean triples

3. Enumerating all triples using linear intersections

4. Elliptic curves and congruent numbers (chapter 6, stein)

iii. Pell’s Equation (?)
          * 8.3. Finance

Sage Primers

Done / In Progress

To Do

  • 1. Basics
    • 1.3. Programming in Sage
    • 1.5. 2D and 3D Plotting in Sage [JoseGuzman]

    • 1.6. Interact in Sage [Erik]
  • 2. Calculus
    • 2.3. Multivariate Calculus
    • 2.4. Taylor Series and Infinite Sums
    • 2.5. Differential Equations
  • 3. Linear Algebra
    • 3.2. Vector Spaces [Sourav]
  • 4. Abstract Algebra
    • 4.2. Rings and Fields [Erik]
  • 5. Number Theory
    • 5.3. Cryptography [Dan]
    • 5.4. Elliptic Curves [Aly]
    • 5.6. Automorphic Forms
    • 5.8. Modular Forms
  • 6. Combinatorics
    • 6.1. Counting
    • 6.2. Graph Theory
  • 7. Geometry
  • 8. Statistics
    • 8.1. Statistical Methods [Erik]
    • 8.2. Probability [Erik]
    • 8.3. Finance

days13/projects/sagenewbie (last edited 2011-01-28 07:12:10 by Eviatar)