Refractive index Concordance
Refractive index
Section titled “Refractive index”Concordance status: generated from processed OCR/PDF text. Treat these as source-location aids until each passage is checked against the scan.
10 hits
Total text matches across processed Steinmetz sections.
1 sources
Sources containing at least one matched alias.
1 sections
Chapters, lectures, sections, or report divisions with matches.
Matched Aliases
Section titled “Matched Aliases”Refractive index, refractive-index
Source Distribution
Section titled “Source Distribution”| Source | Hits | Sections |
|---|---|---|
| Radiation, Light and Illumination | 10 | 1 |
Section Hits
Section titled “Section Hits”| Section | Source | Hits | Workbench | Location |
|---|---|---|---|---|
| Lecture 2: Relation Of Bodies To Radiation | Radiation, Light and Illumination | 10 | Workbench | lines 1549-2365 |
Representative Source Snippets
Section titled “Representative Source Snippets”Lecture 2: Relation Of Bodies To Radiation - 10 hit(s)
Open source text | Open chapter workbench
... e sines of the angle of incidence and the angle of refraction equals the ratio of the speed of propagation in the two media, hence the ratio of the sines of these two angles is constant. This is the law of refraction, and this ratio of sines is called the refractive index between the two media A and W. As the refractive index of one medium W, then, is understood its re- fractive index against empty space or against air : sn a where S is the velocity of light in empty space = 3 X 1010, and Sl the velocity in the medium ...