Applied Mathematics

Applied Mathematics is an open access, peer-reviewed scientific journal that publishes original articles, critical reviews, research notes, debate and short reports in all areas of applied mathematics.

Raj Nandkeolyar

Assistant Professor, Kiit university, India

Research Areas

MAGNETOHYDRODYNAMIC FLUID FLOW, FLUID MECHANICS AND HEAT TRANSFER

Publications: Journals

[1]  Overman A. R. and R. V. Scholtz, 2011. Accumulation of Biomass and Mineral Elements with Calendar Time by Corn: Application of the Expanded Growth Model. PLoS ONE 6(12): e28515. doi:10.1371/journal.pone.0028515
[2]  Overman A. R. and R. V. Scholtz, 2011. Model of Yield Response of Corn to Plant Population and Absorption of Solar Energy. PLoS ONE 6(1): e16117. doi:10.1371/journal.pone.0016117
[3]  Overman, A. R. and R. V. Scholtz. 2005. Model Analysis for Partitioning of Dry Matter and Plant Nitrogen for Stem and Leaf in Alfalfa, Comm Soil Sci Plant Anal, (9&10): 1163-1175.
[4]  Overman, A. R. and R. V. Scholtz. 2004. Model Analysis for Response of Dwarf Elephantgrass to Applied Nitrogen and Rainfall, Comm Soil Sci Plant Anal, 35 (17&18): 2485-2494.
[5]  Overman, A. R. and R. V. Scholtz. 2004. Model of Dry Matter and Plant Nitrogen Partitioning Between Leaf and Stem for Coastal Bermudagrass. II. Dependence on Growth Interval, J Plant Nutr, 27 (9): 1593-1600.
[6]  Overman, A. R. and R. V. Scholtz. 2004. Model of Dry Matter and Plant Nitrogen Partitioning Between Leaf and Stem for Coastal Bermudagrass. I. Dependence on Harvest Interval, J Plant Nutr, 27 (9): 1585-1592.
[7]  Overman, A. R. and R. V. Scholtz. 2003. Model Analysis for Growth Response of Corn, J Plant Nutr, 27 (5): 885-906.
[8]  Overman, A. R. and R. V. Scholtz. 2003. Model Analysis for Growth of Soybean, Comm Soil Sci Plant Anal, 34 (17&18): 2619-2632.
[9]  Overman, A. R. and R. V. Scholtz. 2003. Model Analysis of Response of Crabgrass to Applied Nitrogen, Comm Soil Sci Plant Anal, 34 (17&18): 2495-2501.
[10]  Overman, A. R. and R. V. Scholtz. 2003. Model Analysis of an Overland Flow Treatment System. II. Seasonal Response to Applied Nitrogen and Phosphorus, Comm Soil Sci Plant Anal, 34 (13&14): 1957-1967.
[11]  Overman, A. R. and R. V. Scholtz. 2003. Model Analysis of an Overland Flow Treatment System. I. Accumulation of Dry Matter and Plant Nutrients with Time, Comm Soil Sci Plant Anal, 34 (13&14): 1943-1956.
[12]  Overman, A. R. and R. V. Scholtz. 2003. Model Analysis of Forage Response to Split Applications of Nitrogen. II. Coupling of Roots and Tops, Comm Soil Sci Plant Anal, 34 (11&12): 1539-1548.
[13]  Overman, A. R. and R. V. Scholtz. 2003. Model Analysis of Forage Response to Split Applications of Nitrogen. I. Plant Tops, Comm Soil Sci Plant Anal, 34 (11&12): 1529-1537.
[14]  Overman, A. R. and R. V. Scholtz. 2003. Model Analysis of Response of Pensacola Bahiagrass to Applied Nitrogen on Two Soils, Comm Soil Sci Plant Anal, 34 (9&10): 1465-1479.
[15]  Overman, A. R., R. V. Scholtz and C. M. Taliaferro. 2003. Model Analysis of Response of Bermudagrass to Applied Nitrogen, Comm Soil Sci Plant Anal, 34 (9&10): 1303-1310.
[16]  Overman, A. R. and R. V. Scholtz. 2003. Model Evaluation of Top and Root Accumulation with Time by Corn, Comm Soil Sci Plant Anal, 34 (9&10): 1295-1301.
[17]  Overman, A. R., R. V. Scholtz and C. G. Chambliss. 2003. Response of Coastal Bermudagrass and Pensacola Bahiagrass to Applied Nitrogen and Seasonal Rainfall, Comm Soil Sci Plant Anal, 34 (7&8): 1097-1103.
[18]  Overman, A. R. and R. V. Scholtz. 2003. In Defense of the Extended Logistic Model of Crop Production, Comm Soil Sci Plant Anal, 34 (5&6): 851-864.
[19]  Overman, A. R. and R. V. Scholtz. 2003. Model Comparison for Three Forage Grasses at the Same Location, Comm Soil Sci Plant Anal, 34 (5&6): 735-745.
[20]  Overman, A. R. and R. V. Scholtz. 2003. Dry Matter Production and Cutting Interval. Comm Soil Sci Plant Anal, 34 (1&2): 225-229.
[21]  Overman, A. R. and R. V. Scholtz. 2002. Corn Response to Irrigation and Applied Nitrogen. Comm Soil Sci Plant Anal, 33 (19&20): 3609-3619.
[22]  Overman, A. R., and R. V. Scholtz. 1999. Model for Accumulation of Dry Matter and Plant Nutrients by Corn. Comm Soil Sci Plant Anal, 30(15&16): 2059-2081.
[23]  Overman, A. R., and R. V. Scholtz. 1999. Langmuir-Hinshellwood Model of Soil Phosphorous Kinetics. Comm Soil Sci Plant Anal, 30 (1&2): 109-119.

Publications: Books/Book Chapters

[1]  Overman, A. R. and R. V. Scholtz. 2002. Mathematical Models of Crop Growth and Yield. Marcel Decker, New York, New York. 328 pgs.
[2]  Scholtz, R. V. 2002. Mathematical Modeling of Agronomic Crops: Analysis of Nutrient Removal and Dry Matter Accumulation. Doctor of Philosophy Dissertation. University of Florida. Gainesville, Florida. 139 pgs.
[3]  Scholtz, R. V. 1999. Mathematical Corn Growth Model. Masters of Engineering Thesis. University of Florida. Gainesville, Florida. 86 pgs.