Hamilton’s Principle and the Equations of Motion of an Elastic Shell with Proper Fluid Loading, Cleon Dean, Michael F. Werby
Cleon Dean

The importance of proper fluid loading to the prediction of pseudo-Stoneley resonances form shell theories, Cleon Dean, Michael F. Werby
Cleon Dean

The prediction of pseudo-Stoneley resonances via proper fluid loading of thin shell theories, Cleon Dean, Michael F. Werby
Cleon Dean

Proper fluid loading of thin shell theories and the prediction of pseudo-Stoneley resonances, Cleon Dean, Michael F. Werby
Cleon Dean

The prediction of pseudo-Stoneley resonances via proper fluid loading of thin shell theories, Cleon Dean, Michael F. Werby
Cleon Dean

The study of pulse returns from elongated elastic shells and the extraction of target characteristics, Cleon Dean, Michael F. Werby
Cleon Dean

The study of pulse returns from elongated elastic shells and the extraction of target characteristics, Cleon Dean, Michael F. Werby
Cleon Dean

Asymptotically correct shell theories with fluid loading for the thin spherical shell: new results, Cleon Dean, Michael F. Werby
Cleon Dean

Asymptotically correct shell theories with fluid loading for the thin spherical shell: new results, Cleon Dean, Michael F. Werby
Cleon Dean

The study of pulse signals from elastic spheroidal shells near reflecting interfaces, Natalia Sidorovskaia, Cleon Dean, Michael F. Werby
Cleon Dean

The study of pulse signals from elastic spheroidal shells near reflecting interfaces, Natalia Sidorovskaia, Cleon Dean, Michael F. Werby
Cleon Dean

Determination of material composition from time-domain and frequency-domain resonance echoes of submerged elongated elastic targets, Cleon Dean, Michael F. Werby
Cleon Dean

Comparison of backscattered echoes predicted from exact theory and from thin‐shell theories, Cleon Dean, Michael F. Werby
Cleon Dean

Signatures from pulse signals scattered from elongated elastic solids, Elmer White, Cleon Dean, Michael F. Werby
Cleon Dean

The determination of relative strengths of resonances excited for plane waves scattered from elastic spheroids, Cleon Dean, Michael F. Werby, Elmer White
Cleon Dean

Asymptotically correct shell theories with fluid loading for the thin spherical shell, Cleon Dean, Michael F. Werby
Cleon Dean

Asymptotically correct shell theories with fluid loading for the thin spherical shell: new results, Cleon Dean, Michael F. Werby
Department of Physics and Astronomy Faculty Publications

The study of pulse signals from elastic spheroidal shells near reflecting interfaces, Natalia Sidorovskaia, Cleon Dean, Michael F. Werby
Department of Physics and Astronomy Faculty Publications

The study of pulse returns from elongated elastic shells and the extraction of target characteristics, Cleon Dean, Michael F. Werby
Department of Physics and Astronomy Faculty Publications

Asymptotically correct shell theories with fluid loading for the thin spherical shell: new results, Cleon Dean, Michael F. Werby
Department of Physics and Astronomy Faculty Presentations

The study of pulse returns from elongated elastic shells and the extraction of target characteristics, Cleon Dean, Michael F. Werby
Department of Physics and Astronomy Faculty Presentations

The prediction of pseudo-Stoneley resonances via proper fluid loading of thin shell theories, Cleon Dean, Michael F. Werby
Department of Physics and Astronomy Faculty Publications

The importance of proper fluid loading to the prediction of pseudo-Stoneley resonances form shell theories, Cleon Dean, Michael F. Werby
Department of Physics and Astronomy Faculty Publications

The study of pulse signals from elastic spheroidal shells near reflecting interfaces, Natalia Sidorovskaia, Cleon Dean, Michael F. Werby
Department of Physics and Astronomy Faculty Presentations

The prediction of pseudo-Stoneley resonances via proper fluid loading of thin shell theories, Cleon Dean, Michael F. Werby
Department of Physics and Astronomy Faculty Presentations

Hamilton’s Principle and the Equations of Motion of an Elastic Shell with Proper Fluid Loading, Cleon Dean, Michael F. Werby
Department of Physics and Astronomy Faculty Presentations

Proper fluid loading of thin shell theories and the prediction of pseudo-Stoneley resonances, Cleon Dean, Michael F. Werby
Department of Physics and Astronomy Faculty Publications

Variational methods and the derivation of shell theories to approximate vibrations of bounded elastic shells, Cleon Dean, Michael F. Werby
Cleon Dean

The Construction of Shell Theories with Fluid Loading to Approximate Scattering from Submerged Bounded Objects via Techniques in Differential Geometry, Cleon Dean, Michael F. Werby
Cleon Dean

Asymptotically correct shell theories with fluid loading for the thin spherical shell: Further results, Cleon Dean, Michael F. Werby
Cleon Dean

Asymptotically correct shell theories with fluid loading for the thin spherical shell, Cleon Dean, Michael F. Werby
Cleon Dean

Theoretical Predictions for Scattering from Elastic Solid Cylinders with Hemispherical Caps and Comparison with Data, Michael F. Werby, Cleon Dean
Cleon Dean

Theoretical Predictions for Scattering from Elastic Solid Cylinders with Hemispherical Caps and Comparison with Data, Michael F. Werby, Cleon Dean
Cleon Dean

Shell Theories with Fluid Loading to Approximate Scattering from Submerged Bounded Objects, Cleon Dean, Michael F. Werby
Cleon Dean

Pseudo-Stoneley waves predicted by shell theory for the thin spherical shell via proper fluid loading, Cleon Dean, Michael F. Werby
Cleon Dean

Shell Theories with Fluid Loading to Approximate Scattering from Submerged Bounded Objects, Cleon Dean, Michael F. Werby
Cleon Dean

Hamilton’s principle and the equations of motion of an elastic shell with and without fluid loading, Cleon Dean, Michael F. Werby
Cleon Dean

Asymptotically correct shell theories with fluid loading for the thin spherical shell: Further results, Cleon Dean, Michael F. Werby
Cleon Dean

Pseudo-Stoneley waves predicted by shell theory for the thin spherical shell via proper fluid loading, Cleon Dean, Michael F. Werby
Cleon Dean

Target shape and material composition from resonance echoes of submerged elongated elastic targets, Cleon Dean, Michael F. Werby
Cleon Dean

Determination of material composition from time-domain and frequency-domain resonance echoes of submerged elongated elastic targets, Cleon Dean, Michael F. Werby
Cleon Dean

Variational methods and the derivation of shell theories to approximate vibrations of bounded elastic shells, Cleon Dean, Michael F. Werby
Cleon Dean

Hamilton's principle and the derivation of shell theories to approximate vibrations of bounded elastic shells, Cleon Dean, Michael F. Werby
Cleon Dean

Hamilton's principle and the derivation of shell theories to approximate vibrations of bounded elastic shells, Cleon Dean, Michael F. Werby
Cleon Dean

Hamilton’s principle and the equations of motion of an elastic shell with and without fluid loading, Cleon Dean, Michael F. Werby
Cleon Dean

A systematic study of calculations for scattering of plane waves from submerged elastic solid cylinders with hemispherical caps, Michael F. Werby, Cleon Dean
Cleon Dean

“Comparison of backscattered echoes from exact theory and from thin-shell theories, Cleon Dean, Michael F. Werby
Cleon Dean