13,965 results
Search Results
52. Discussion on Paper entitled 'Synthesis of Transfer Functions with Poles Restricted to the Negative Real Axis'
53. Comment on a Paper by Cotterill and Doyama
54. A Note on the Paper 'Electrical Conduction Between Metallic Microparticles'
55. Effect of Scattering on Charge Transfer Efficiency Measurements: Comment on a Paper by Mahadevan et al
56. Comments on the Paper 'Volume Conductivity of Borosilicate Glass' by Julius J. Muray
57. Reply to the Comments of B. Cox on the Paper 'Use of the Nuclear Reaction 16O(d,p)17O to Study Oxygen Diffusion in Solids and its Application to Zirconium'
58. Note on Paper 'On Creep and Relaxation'
59. Comments on the Paper of Alan G. Mencher, 'Epicentral Displacement Due to Elastic Waves in an Infinite Slab'
60. Note on R. R. Newton's Paper, 'Motion of a Satellite around an Unsymmetrical Central Body'
61. A Comment on Dr. Vazsonyi's Paper, 'A Generalization of Nyquist's Stability Criteria'
62. Comment on the Paper, 'Complex Modulus of a Cohesive Soil from Stress Relaxation Response using the One‐Sided Fourier Transform'
63. AGFeTe2 Semiconductor Compound: (A Remark on Papers by J. H. Wernick and R. Wolfe, and P. Manca and F. Massazza)
64. Comments on the Paper 'Use of the Nuclear Reactions 16O(d,p)17O to Study Oxygen Diffusion in Solids and its Application to Zirconium'
65. Note on a Paper of H. Bateman
66. Papers by Hadrian D. Stahl
67. Erratum: Original Authorship of Formulas Given in Clark and Deutsch's Paper
68. Comments on the Paper 'Hertzian Fracture Experiments on Abraded Glass Surfaces as Definitive Evidence for an Energy Balance Explanation of Auerbach's Law'
69. Comments on the Paper 'Grain Growth during Sintering of Tungsten'
70. A Reply to Comments on the Paper 'Potential Distribution and Negative Resistance in Thin Oxide Films'
71. Original Authorship of Formulas Given in Clark and Deutsch's Paper
72. On the Resistance to the Uniform Motion of a Solid Through a Viscous Liquid. II.
73. Advisory Council on Applied Physics of the American Institute of Physics Report of Meeting Pittsburgh, March 25, 1939.
74. Impregnation Studies with Colloidal Graphite.
75. Dielectric Loss Measurements Parallel to Laminations.
76. Amorphous Semiconducting 3As2Se3·2Sb2Se3 Films. I. Optical Properties.
77. Addendum to the Paper ``Tunnel Effect in Al–Al2O3–Al Junctions: Inclusion of Short‐Range Forces''
78. AGFeTe2Semiconductor Compound: (A Remark on Papers by J. H. Wernick and R. Wolfe, and P. Manca and F. Massazza)
79. A Graphical Method for Determining Particle Trajectories.
80. Physics of Rubber and Other High Polymers.
81. On the Torsion of a Prismatic Cylinder with a Star-Shaped Section.
82. X-ray diffraction topographs of silicon crystals with superposed oxide film. III. Intensity distribution.
83. Current Flow across Grain Boundaries in n-Type Germanium. II.
84. On Representation of Electromagnetic Fields in Cavities in Terms of Natural Modes of Oscillation.
85. Radiation Field of a Square, Helical Beam Antenna.
86. D.C.-A.C. Correlation in Dielectrics.
87. A Simple and Rigorous Method for the Determination of the Heat Requirements of Simple Intermittently Heated Exterior Walls.
88. Physics in the Production and Use of Bulk Crops.
89. Electron-Induced Conduction in Plastics. II. Bulk Excitation in Polystyrene and Other Insulating Polymers.
90. Preface.
91. Annual Meeting of the Society of Rheology at the Franklin Institute, Philadelphia, October, 1952.
92. Concerning the Division of High-Polymer Physics of the American Physical Society.
93. The Electromagnetic Field in the Plane of a Circular Aperture Due to Incident Spherical Waves.
94. Addendum: xerographic discharge characteristics of photoreceptors. II.
95. The Heat Requirements of Simple Intermittently Heated Interior Walls and Furniture.
96. Frequency response of acoustic surface wave filters. II.
97. X-ray diffraction in crystals of intermediate perfection. II. A treatment of LiF in symmetrical Bragg geometry.
98. Domain walls in bubble films. III. Wall structure of stripe domains.
99. Modeling of a pulsed CO/N2 molecular laser system. II. Effect of mixture components and temperature variation.
100. Theoretical strength of a perfect crystal with exponentially attractive and repulsive interatomic interactions.
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.