- Accepted for publication in a dedicated volume of the Journal of Elasticity, February 2003 Memories of Clifford Truesdell
- Physica D 132 (1999) 175188 Similarity solutions in the theory of curvature driven diffusion along
- Theory of the Instability and Failure of Viscoelastic Materialsin Tension
- On the Rheology of Cold Drawing. I. Elastic Materials*
- Rheology of Neck Formation in the Cold Drawing of Polymeric Fibers
- Elastic stability of DNA configurations. I. General theory Irwin Tobias,1,
- Theory of sequence-dependent DNA elasticity Bernard D. Colemana)
- 782 S. N. TIMASHEFF,H. hl.DINTZIS,J. G. KIRKWOODAND B. D. COLEMAN Vol. 79 [CONTRIBUTION NO. 1425 FROM THE STERLING CHEMISTRY LABORATORY,YALE UNIVERSITY]
- STUDIES OF MOLECULAR INTERACTION IN ISOIONIC PROTEIN SOLUTIONS BY LIGHT-SCATTERING*
- The Influence of Dipole Moment Fluctuations on the Dielectric Increment of Proteins in Author(s): John G. Kirkwood and John B. Shumaker
- Journal of Elasticity 60: 173221, 2000. 2001 Kluwer Academic Publishers. Printed in the Netherlands.
- Applications of a theory of sequence dependent DNA elasticity that accounts for intramolecular electrostatic forces
- On the Rheology of Cold Drawing. 11. Viscoelastic Materials*
- Modeling the Lac repressor-operator assembly: The influence of DNA looping on Lac
- On Bifurcations of Equilibria of Intrinsically Curved, Electrically Charged, Rod-like Structures that Model
- 10.1098/rsta.2004.1393 Theory of self-contact in Kirchhoff rods with
- Elastic stability of DNA configurations. II. Supercoiled plasmids with self-contact Bernard D. Coleman,1,
- 10.1098/rsta.2004.1380 Implications of the dependence of the elastic
- Creep Failure and Fracture of Polyethylene in Uniaxial J. M. CRISSMAN and L. J. ZAPAS
- The Elastic Rod Model for DNA and Its Application to the Tertiary Structure of DNA Minicircles in Mononucleosomes
- Forces Between Protein Molecules in Solution Arising from Fluctuations in Proton Charge and Configuration
- An Instability Leading to Failure of Polyethylene in Uniaxial Creep
- Bernard D. Coleman J. Willard Gibbs Professor of Thermomechanics
