Search
Results: 1620
Philip McMaster, 1942
The Rockefeller University
Jan 01, 0001
Philip D. McMaster. Lymphatic participation in cutaneous phenomena
Lecture delivered April 16, 1942
Posted with permission
Published by: The Science Press Printing Company
Remembering Philip McShane
Bruce Anderson
Jun 23, 2022
Bruce Anderson’s research and writing has been concerned with legal decision-making, economic theory, and contemporary sculpture. His work draws on the writings of Philip McShane and Bernard Lonergan. It includes ‘Discovery’ in...
Published by: Memorial University of Newfoundland
Remembering Philip McShane
Bruce Anderson
Jun 23, 2022
Bruce Anderson’s research and writing has been concerned with legal decision-making, economic theory, and contemporary sculpture. His work draws on the writings of Philip McShane and Bernard Lonergan. It includes ‘Discovery’ in...
Published by: Memorial University of Newfoundland
Beginnings with Philip McShane
Terrance Quinn
Mar 16, 2022
Terrance Quinn obtained his BSc in 1987, his MSc in 1988 and his PhD in 1992 (all in mathematics). During his early career, he published in pure and applied mathematics, as well as in mathematics pedagogy. He gradually broadened...
Published by: Memorial University of Newfoundland
Beginnings with Philip McShane
Terrance Quinn
Mar 16, 2022
Terrance Quinn obtained his BSc in 1987, his MSc in 1988 and his PhD in 1992 (all in mathematics). During his early career, he published in pure and applied mathematics, as well as in mathematics pedagogy. He gradually broadened...
Published by: Memorial University of Newfoundland
Memories of and Gratitude for Philip McShane
William Zanardi
Mar 16, 2022
William J. Zanardi is Professor Emeritus at St. Edward’s University in Austin, Texas. Over the last thirty plus years, the works of Bernard Lonergan and Philip McShane have greatly influenced his teaching and writing. As one of...
Published by: Memorial University of Newfoundland
Philip Power at 65
Professor Philip P. Power turns 65 in 2018. His contributions to organometallic and inorganic chemistry over the last four decades are expansive, and he has been instrumental in the definition of several new subfields in the...
Letter from McShane to Henman
Philip McShane
Mar 21, 2022
A letter from Philip McShane to Robert Henman handwritten during the last week of June 2020.
Published by: Memorial University of Newfoundland
The Ursinus Weekly, February 26, 1940
"Design for understanding" is all-Ursinus conference theme Mr. Bailey improved Jan Peerce interview reveals past hardships, future plans Old England scene of pageant May 11 Dr. Philip reviews Jan Peerce concert Leads for...
Ursinus College Collegeville Pennsylvania newspaper May Day pageant Jan Peerce John Hart Ruby Henry L. Deimel Harvey L. Carter debate team International Relations Club John B. Price freshmen customs Basketball wrestling cultural history Higher Education Liberal Studies Social History United States History
Published by: Ursinus College
Philip Power at 65
Professor Philip P. Power turns 65 in 2018. His contributions to organometallic and inorganic chemistry over the last four decades are expansive, and he has been instrumental in the definition of several new subfields in the...
Memories of and Gratitude for Philip McShane
William Zanardi
Mar 16, 2022
William J. Zanardi is Professor Emeritus at St. Edward’s University in Austin, Texas. Over the last thirty plus years, the works of Bernard Lonergan and Philip McShane have greatly influenced his teaching and writing. As one of...
Published by: Memorial University of Newfoundland
Letter from McShane to Henman
Philip McShane
Mar 21, 2022
A letter from Philip McShane to Robert Henman handwritten during the last week of June 2020.
Published by: Memorial University of Newfoundland
Recent advances in identifying the structure of liquid and glassy oxide and chalcogenide materials under extreme conditions
The advent of advanced instrumentation and measurement
protocols makes it increasingly feasible to use X-ray and
neutron diffraction methods to investigate the structure
of liquid and glassy materials under extreme...
protocols makes it increasingly feasible to use X-ray and
neutron diffraction methods to investigate the structure
of liquid and glassy materials under extreme...
Pressure-driven transformation of the ordering in amorphous network-forming materials
The pressure-induced changes to the structure of disordered oxide and chalcogenide network-forming materials are investigated on the length scales associated with the first three peaks in measured diffraction patterns. The...
Impact of pressure on the structure of glass and its material properties
High pressures have a significant impact on the structure-related properties of glass, and are encountered in scenarios that range from fracture mechanics, where stress in the gigapascal regime is easily generated by...
Identifying and characterising the different structural length scales in liquids and glasses
The structure of several network-forming liquids and glasses is considered, where a focus is placed on the detailed information that is made available by using the method of neutron diffraction with isotope substitution...
Networks under pressure
The pressure-driven collapse in the structure of network-forming materials will be considered in the gigapascal (GPa) regime, where the development of in situ high-pressure neutron diffraction has enabled this technique to...
Pressure-dependent structure of the null-scattering alloy Ti<sub>0.676</sub>Zr<sub>0.324</sub>
The room temperature structure of the alloy (Formula presented.) was measured by X-ray diffraction under compression at pressures up to (Formula presented.). This alloy is used as a construction material in high pressure...
Pressure-driven transformation of the ordering in amorphous network-forming materials
The pressure-induced changes to the structure of disordered oxide and chalcogenide network-forming materials are investigated on the length scales associated with the first three peaks in measured diffraction patterns. The...
Impact of pressure on the structure of glass and its material properties
High pressures have a significant impact on the structure-related properties of glass, and are encountered in scenarios that range from fracture mechanics, where stress in the gigapascal regime is easily generated by...
Identifying and characterising the different structural length scales in liquids and glasses
The structure of several network-forming liquids and glasses is considered, where a focus is placed on the detailed information that is made available by using the method of neutron diffraction with isotope substitution...
Recent advances in identifying the structure of liquid and glassy oxide and chalcogenide materials under extreme conditions
The advent of advanced instrumentation and measurement
protocols makes it increasingly feasible to use X-ray and
neutron diffraction methods to investigate the structure
of liquid and glassy materials under extreme...
protocols makes it increasingly feasible to use X-ray and
neutron diffraction methods to investigate the structure
of liquid and glassy materials under extreme...
Neutron diffraction as a probe of liquid and glass structures under extreme conditions
Neutrons provide a unique tool for probing the structure of liquid and glassy materials, and deliver information that cannot be obtained from other experimental techniques. Advances in neutron diffraction instrumentation and...
Structure of As-Se glasses by neutron diffraction with isotope substitution
The method of neutron diffraction with selenium isotope substitution is used to measure the structure of glassy As0.30Se0.70, As0.35Se0.65 and As0.40Se0.60. The method delivers three difference functions for each sample in which...
Networks under pressure
The pressure-driven collapse in the structure of network-forming materials will be considered in the gigapascal (GPa) regime, where the development of in situ high-pressure neutron diffraction has enabled this technique to...
|
|< |
< |
1 |