| 4 | -- | 7 | Greg Goth. Infrastructure simulation effort has high hopes, faces high hurdles |
| 8 | -- | 9 | David I. Lewin. Intensity-modulated radiation therapy |
| 12 | -- | 13 | Nancy Forbes. Treading new ground [tire industry] |
| 24 | -- | 25 | William F. Spotz, Paul N. Swarztrauber. Climate modeling |
| 26 | -- | 31 | Stephen J. Thomas, Richard D. Loft, John M. Dennis. Parallel implementation issues: global versus local methods |
| 32 | -- | 41 | David A. Randall, Todd D. Ringler, Ross Heikes, Phil Jones, John Baumgardner. Climate modeling with spherical geodesic grids |
| 42 | -- | 48 | Mohamed Iskandarani, Dale B. Haidvogel, Julia Levin, Enrique Curchitser, Christopher Edwards. Multi-scale geophysical modeling using the spectral element method |
| 49 | -- | 54 | Kao-San Yeh, Shian-Jiann Lin, Richard B. Rood. Applying local discretization methods in the NASA finite-volume general circulation model |
| 56 | -- | 63 | Johann Feichter, Martin Schultz, Thomas Diehl. Modeling chemical constituents of the atmosphere |
| 64 | -- | 69 | Vicky Pope, Terry Davies. Testing and evaluating atmospheric climate models |
| 70 | -- | 73 | Geoffrey Fox. Message passing: from parallel computing to the grid |
| 74 | -- | 78 | Richard R. Silbar. Web delivery of interactive laboratories: comparing three authoring tools |
| 84 | -- | 90 | Paul F. Dubois. Designing scientific components |
| 91 | -- | 97 | Julian V. Noble. The right angle: precise numerical orthogonality in eigenstates |