MDS 535.42
Wording: Natural sciences & mathematics Physics Light Dispersion; Diffraction; Absorption Not set
Dewmoji: π¬ππ??
0 Computer science, information & general works 252,013 βΉοΈ | 1 Philosophy & psychology 270,129 🧠 | 2 Religion 681,242 π | 3 Society, government, & culture 1,328,382 π« | 4 Language 209,883 π¬ | 5 Natural sciences & mathematics 431,918 π¬ | 6 Applied science & technology 940,635 π‘ | 7 Arts & recreation 1,031,850 π¨ | 8 Literature & rhetoric 1,436,736 π | 9 History & geography 837,760 πΊοΈ |
50 Science 35,266 🥼 | 51 Mathematics 82,055 β | 52 Astronomy 25,356 π | 53 Physics 44,008 π | 54 Chemistry 28,260 βοΈ | 55 Earth sciences; geology 36,663 π | 56 Fossils & Dinosaurs 11,038 π | 57 Biology 55,751 𧬠| 58 Plants (Botany) 26,824 πΏ | 59 Animals 86,697 πΌ |
530 Physics 20,962 π | 531 Classical mechanics 3,646 π¨ | 532 Fluid mechanics 1,632 π¦ | 533 Pneumatics (Gas mechanics) 480 βοΈ | 534 Sound 933 π | 535 Light 4,456 π | 536 Heat 1,718 π₯ | 537 Electricity 3,109 β‘ | 538 Magnetism 1,310 𧲠| 539 Modern physics 5,762 β’οΈ |
535.0 Optics 182 | 535.1 Theory 126 | 535.2 Propagation; Velocity; Measurement of light 258 | 535.3 Reflection; Refraction; Absorption (See also 522.92 Astronomy) 218 | 535.4 Dispersion; Diffraction; Absorption 192 | 535.5 Polarization; Polariscope; Double refraction 107 | 535.6 Color 1,732 | 535.7 Physiologic: Eye 3 | 535.8 Applications 301 | 535.9 Tables; Problems; Questions 2 |
535.40 | 535.41 | 535.42 21 | 535.43 30 | 535.44 | 535.45 | 535.46 | 535.47 23 | 535.48 1 | 535.49 |
535.420 7 | 535.421 | 535.422 | 535.423 | 535.424 | 535.425 | 535.426 | 535.427 | 535.428 | 535.429 |
Selected Works under MDS 535.42 (21)
20 items
- Numerical Simulation of Optical Wave Propagation With Examples in MATLAB (SPIE Press Monograph Vol. PM199) by Jason D. Schmidt
- Diffraction, Fourier Optics and Imaging by Okan K. Ersoy
- Explosion, shock wave and hypervelocity phenomena in materials II : selected, peer reviewed papers from the 2nd International Symposium on Explosion, Shock Wave and Hypervelocity Phenomena (ESHP-2), 6-9 March 2007, Kumamoto, Japan by S. Itoh
- Fundamentals of the Physical Theory of Diffraction by Pyotr Ya. Ufimtsev
- Structural Biology Using Electrons and X-rays: An Introduction for Biologists by Michael F Moody
- Field guide to diffractive optics by Yakov G. Soskind
- Mathematical Theory of Diffraction (Progress in Mathematical Physics (35)) by Arnold Sommerfeld
- Mathematical modeling in diffraction theory : based on A priori information on the analytical properties of the solution by Alexander G. Kyurkchan
- Diffractive optical elements : design and fabrication with MATLAB codes by (Professor in Optics) Shanti Bhattacharya
- Scalar diffraction from a circular aperture by Charles J. Daly
- Diffractive optics and nanophotonics by Victor A. Soifer,
- Light Propagation in Periodic Media: Differential Theory and Design (Optical Science and Engineering) by Michel Neviere
- Equations of Mathematical Diffraction Theory (Differential and Integral Equations and Their Applications) by Mezhlum A. Sumbatyan
- Diffraction 2002 : interpretation of the new diffractive phenomena in quantum chromodynamics and in the S-matrix theory by Roberto Fiore
- Two methods for the exact solution of diffraction problems by Frederick E. Alzofon
- Advances in structure research by diffraction methods. Volume 3 by Reginald Brill
- Discovering Prisms (3d Objects) by Nancy Furstinger
- The method of the generalised eikonal : new approaches in the diffraction theory by Michael V. Vesnik
- Advanced Theory of the Diffraction by a Semi-infinite Impedance Cone (Alpha Science Series on Wave Phenomena) by J. M. L. Bernard
- Diffraction Theory: The Sommerfeld-malyuzhinet Technique (Alpha Science Series on Wave Phenomena) by V.M. Babich
Related Tags
"Far Friends"
MDS classes with significant recommendations overlap, excluding ones under the same top-level class.
None
Wording
| 1922 Edition |
| Modern Language |
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