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Discovering New Knowledge in the Context of Education: Examples from Mathematics. Sergei Abramovich SUNY Potsdam Abstract This presentation will reflect on a number of mathematics education courses taught by the author to prospective K-12 teachers. It will highlight the potential of technology-enhanced educational contexts in discovering new mathematical knowledge by revisiting familiar concepts and models within the framework of “hidden mathematics curriculum.” Situated addition, unit fractions, and Fibonacci numbers will motivate the presentation leading to a mathematical frontier. Conference Board of the Mathematical Sciences. 2001. The Mathematical Education of Teachers. Washington, D. C.: MAA. Mathematics Curriculum and Instruction for Prospective Teachers. Recommendation 1. Prospective teachers need mathematics courses that develop deep understanding of mathematics they will teach (p.7). Hidden mathematics curriculum A didactic space for the learning of mathematics where seemingly unrelated concepts emerge to become intrinsically connected by a common thread. Technological tools allow for the development of entries into this space for prospective teachers of mathematics Example 1. “Find ways to add consecutive numbers in order to reach sums between 1 and 15.” Van de Walle, J. A. 2001. Elementary and Middle School Mathematics (4th edition) , p. 66. 1+2=3; 1+2+3=6; 1+2+3+4=10; 1+2+3+4+5=15; 2+3=5; 2+3+4=9; 2+3+4+5=14; 3+4=7; 3+4+5=12; 5+6=11; 6+7=13; 4+5=9; 4+5+6=15; 7+8=15. Trapezoidal representations of integers Polya, G. 1965. Mathematical Discovery, v.2, pp. 166, 182. T(n) - the number of trapezoidal representations of n T(n) equals the number of odd divisors of n. 15: {1, 3, 5, 15} 15=1+2+3+4+5; 15=4+5+6; 15=7+8; 15=15 Trapezoidal representations for an=32n Trapezoidal representations for an=52n If N is an odd prime, then for all integers m≥ log2(N-1)-1 the number of rows in the trapezoidal representation of 2mN equals to N. Examples: N=3, m≥1;N=5, m≥2. Abramovich, S. (2008, to appear). Hidden mathematics curriculum of teacher education: An example. PRIMUS (Problems, Resources, and Issues in Mathematics Undergraduate Studies). Spreadsheet modeling Example 2. How to show one-fourth? One student’s representation Representation of 1/n Possible learning environments (PLE) Steffe, L.P. 1991. The constructivist teaching experiment. In E. von Glasersfeld (ed.), Radical Constructivism in Mathematics Education. Abramovich, S., Fujii, T. & Wilson, J. 1995. Multiple-application medium for the study of polygonal numbers. Journal of Computers in Mathematics and Science Teaching, 14(4). Measurement as a motivation for the development of inequalities 1 2 3 4 4 1 2 3 4 From measurement to formal demonstration 1 2 3 n ... n 1 2 3 n 1 3 6 n(n 1)/ 2 ... n(n 1)/ 2 1 2 3 n Equality as a turning point 2 1 4 9 n 2 ... n 1 2 3 n Surprise! From > through = to < 1 5 12 ... 1 2 3 n(3n 1) /2 n(3n 1) /2 n And the sign < remains forever: n P(m,i) i P(m,n), m 5 i 1 P(m,n) - polygonal number of side m and rank n How good is the approximation? 400 350 300 250 red : P(m,100) 100 blue : P(m,i) i i 1 200 150 100 50 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Abramovich, S. and P. Brouwer. (2007). How to show one-fourth? Uncovering hidden context through reciprocal learning. International Journal of Mathematical Education in Science and Technology, 38(6), 779-795. Example 3. FIBONACCI NUMBERS REVISITED f k1 af k bf k1 , k = 1, 2, 3, Ι ; f0 = f1 = 1 a, b Πreal number s When a=b=1 1, 1, 2, 3, 5, 8, 13, Ι Spreadsheet explorations How do the ratios fk+1/fk behave as k increases? Do these ratios converge to a certain number for all values of a and b? How does this number depend on a and b? Generalized Golden Ratio: fk1 lim k f k Convergence PROPOSITION 1. (the duality of computational experiment and theory) CC What is happening inside the 2 parabola a +4b=0? Hitting upon a cycle of period three Computational Experiment a2+b=0 - cycles of period three formed by fk+1/fk (e.g., a=2, b=-4) a2+2b=0 - cycles of period four formed by fk+1/fk (e.g., a=2, b=-2) a2+3b=0 - cycles of period six formed by fk+1/fk (e.g., a=3, b=-3) Traditionally difficult questions in mathematics research Do there exist cycles with prime number periods? How could those cycles be computed? Transition to a non-linear equation fk1 afk bfk1 gk f k / f k1 b gk 1 a , g1 1 gk Continued fractions emerge Factorable equations of loci Loci of cycles of any period reside inside the parabola a2 + 4b = 0 Fibonacci polynomials n Pn (x) d(k,i)x ni i 0 d(k, i)=d(k-1, i)+d(k-2, i-1) d(k, 0)=1, d(0, 1)=1, d(1, 1)=2, d(0, i)=d(1, i)=0, i≥2. Spreadsheet modeling of d(k, i) Spreadsheet graphing of Fibonacci Polynomials Proposition 2. The number of parabolas of the form a2=msb where the cycles of period r in equation b gk 1 a , g1 1 gk realize, coincides with the number of roots of n i Pn (x) C2ni x ni i 0 when n=(r-1)/2 or n i Pn(x) C2ni1 x ni1 when n=(r-2)/2. i 0 Proposition 3. For any integer K > 0 there exists integer r > K so that Generalized Golden Ratios oscillate with period r. Abramovich, S. & Leonov, G.A. (2008, to appear). Fibonacci numbers revisited: Technologymotivated inquiry into a two-parametric difference equation. International Journal of Mathematical Education in Science and Technology. Classic example of developing new mathematical knowledge in the context of education Aleksandr Lyapunov (1857-1918) Central Limit Theorem - the unofficial sovereign of probability theory – was formulated and proved (1901) in the most general form as Lyapunov was preparing a new course on probability theory Each day try to teach something that you did not know the day before. Concluding remarks The potential of technology-enhanced educational contexts in discovering new knowledge. The duality of experiment and theory in exploring mathematical ideas. Appropriate topics for the capstone sequence.