The Principles of Light and Optics |
From inside the book
Results 1-3 of 44
Page 16
... interface between two media . First we shall deal with reflection and then with what happens to the light that is transmitted into the new medium . 2.2 Reflection When light is reflected it appears to obey certain rules , these may be ...
... interface between two media . First we shall deal with reflection and then with what happens to the light that is transmitted into the new medium . 2.2 Reflection When light is reflected it appears to obey certain rules , these may be ...
Page 22
... interface Figure 2.J shows a beam of light incident upon a plane interface between two media . The wavefront HC has just touched the inter- face at H. If the velocity of light in the rare medium is v , and that in the dense medium is v ...
... interface Figure 2.J shows a beam of light incident upon a plane interface between two media . The wavefront HC has just touched the inter- face at H. If the velocity of light in the rare medium is v , and that in the dense medium is v ...
Page 135
... interface between two transparent media We have all noticed the wonderful colours in a soap bubble or those ... interface between two media . Let us see how this happens at an air - glass interface . Figure 11.A shows a ray of light , AB ...
... interface between two transparent media We have all noticed the wonderful colours in a soap bubble or those ... interface between two media . Let us see how this happens at an air - glass interface . Figure 11.A shows a ray of light , AB ...
Contents
Introduction | 1 |
Huygenss construction 2 | 2 |
The simple microscope | 8 |
Copyright | |
39 other sections not shown
Common terms and phrases
amplitude angle of incidence aperture atom beam bright centre chromatic aberration ciliary muscle colour Completion Test Summary converging lens crown glass crystal crystalline lens curvature curve deviation diagram diameter diffraction dioptres distance distant object double slit effect electron energy equation experiment eye lens Figure film final image flint glass focal length focal plane focus formula fringes grating hence illuminated image formed intensity interface interference known lens system lenses light incident Lloyd's mirror measured medium microscope mirror normal adjustment objective lens observer optic axis optical instruments parallel light paraxial rays path difference phase plate polarised position prism Problems based produced radiation radius reflection refractive index resolving power result retina rotation screen Section appear seen shown in fig shows spectrum spherical aberration surface Test Summary Chapter theory thin lens velocity of light wave wavefront wavelength white light zone