k u n k l e t at c o f c dot e d u

(843) 953-5921 (office)
(843) 953-1410 (fax)

Classes: MATH 120, MATH 221

Office: RS Small, Room 327
Hours: 12-1pm M, 1:45-2:45pm Tu, 9-9:50am W, 2-3pm Fri, or by appointment.

RS Small is the big pink building opposite Maybank Hall on the Cougar Mall. It is item 23 on the campus map.

Syllabus, Maymester 2014

Video lectures

Pre-precalculus boot camp

The graphs of power functions with rational exponents

Transformations on the graphs of equations

Additional homework problems for Zill

Complex arithmetic

Expanding binomials with Pascal's triangle

Review of Binomials and Trigonometry for students in Calc I

Video lectures

Lecture notes used in videos

Review notes

Writing subspace proofs

Review notes

Video review

Review of Calc I for students in Calc II

Video lectures

Lecture notes used in videos

Review notes

Euler's formula

Famous limits everybody should know.

Taylor's theorem

Additional homework problems for Stewart

Additional homework problems for Stewart

Video review

Review notes

Additional homework problems for Fridy

Flat extension and ideal projection, J. Symbolic Comput., 89 (2018) 109-120, or, read the poster.

More on Favard interpolation from subsets of a rectangular lattice, Jaen J. Approx., 7 (2015) 177-201.

Favard interpolation from subsets of a rectangular lattice, J. Approx. Theory, 163 (2011) 1465-1477.

Favard's interpolation problem in one or more variables, Const. Approx., 18 (2002) 467-478.

Characterizations of multivariate differences and associated exponential splines, J. Approx. Theory, 105 (2000) 19-48.

Exponential box-like splines on nonuniform grids, Const. Approx., 15 (1999) 311-336.

Multivariate differences, polynomials, and splines, J. Approx. Theory, 84 (1996) 290-314.

Box-like splines with nonuniform stepsize, in "Approximation Theory VIII, Vol. 1: Approximation and Interpolation," C.K. Chui and L.L Schumaker, eds., World Scientific Publishing Co., 1995, 303-308.

Using quasi-interpolants in a result of Favard, in "Approximation and Computation," R.V.M. Zahar, ed., ISNM 119, Birkhäuser Verlag, Basel-Boston-Berlin, 1994, 353-357.

Rearrangements of conditionally integrable functions, in "Approximation, Probability, and Related Fields," G. Anastassiou and S.T. Rachev, eds., Plenum Press, 1994.

Lagrange interpolation on a lattice: bounding derivatives by divided differences, J. Approx. Theory 71 (1992), 94-103.

with Dinesh Sarvate: Balanced part ternary designs: some new results, J. Combin. Math. Combin. Comput., 22 (1996), 3-11.

with Dinesh Sarvate: Balanced (Part) Ternary Designs, in "Handbook of Combinatorial Designs," J. Dinitz, C. J. Colbourn, ed.s, CRC Press, Boca Raton, 1996, pp. 233-238.

with Dinesh Sarvate: On ternary designs with a specified number of blocks with repeated elements, Ars Combin., 40 (1995), 129-142.

with Jennifer Seberry: A few more small defining sets for SBIBD(4t-1, 2t-1, t-1), Bull. Inst. Combin. Appl., 12 (1994), 61-64.