Wave Physics

1. Wave Physics PHYS 2023 Tim Freegarde

2. transverse motion of taut string use physics/mechanics to write partial differential wave equation for system • e-m waves along coaxial cable • shallow-water waves Wave propagation • flexure waves • string with friction • travelling wave: • general form • sinusoidal insert generic trial form of solution • complex exponential • damped • standing wave • soliton • speed of propagation find parameter values for which trial form is a solution • dispersion relation • string motion from initial conditions

3. today’s lecture: • Huygens’ construction Wave propagation in changing media • gradual change: • refraction • refraction; continuity conditions • obstacles: • interface between media: • 1-D: boundary conditions • 2/3-D: diffraction

4. waves are Wave propagation • collective bulk disturbances, in which • motion is a delayed response • to neighbouring motions when propagation follows multiple routes • the amplitudes are added • waves propagate via all possible routes

5. wavefronts propagate from initial disturbance in all directions Huygens’ wave construction • each point on the wavefront acts as a secondary source • further wavefronts propagate from the secondary sources in the same fashion • where wavefronts coincide (strong constructive interference), a new wavefront is formed Christiaan Huygens (1629-1695)

6. two point sources Huygens’ wave construction

7. five point sources • two point sources Huygens’ wave construction

8. 21 point sources • five point sources Huygens’ wave construction

9. propagation from a point source Huygens’ wave construction Christiaan Huygens (1629-1695)

10. reflection at a plane surface Huygens’ wave construction Christiaan Huygens (1629-1695)

11. refraction at a plane surface Huygens’ wave construction Christiaan Huygens (1629-1695)

12. refraction at a plane surface Huygens’ wave construction Christiaan Huygens (1629-1695)

13. Phasors

14. Huygens’ wave construction • Fresnel integral • phasors shorter / rotate more quickly at distance to give spiral

15. a b x x 0 L S S Fermat’s principle of least time B C A P P • refraction at a plane surface Pierre de Fermat (1601-1665)

16. a b x x 0 L Pierre de Fermat (1601-1665) S S • light rays follow the path of least time between two points Fermat’s principle of least time P P • refraction at a plane surface

17. a b x x 0 L Willebrord Snel van Royen (Leiden, 1580-1626) S S • light rays follow the path of least time between two points Snell’s law of refraction P P • refraction at a plane surface

18. mirages by refraction in the atmosphere Huygens’ wave construction Christiaan Huygens (1629-1695)

19. ocean waves parallel to shore Huygens’ wave construction Christiaan Huygens (1629-1695)

20. http://www.uwgb.edu/dutchs/EarthSC202Slides/COASSLID.HTM Huygens’ wave construction • ocean waves parallel to shore Christiaan Huygens (1629-1695)

21. http://geographyfieldwork.com/WaveRefraction.htm Huygens’ wave construction Christiaan Huygens (1629-1695)

22. http://www.dorsetphotos.co.uk http://www.smccd.edu/accounts/bramalln/documents/waterwaves.pdf Christiaan Huygens (1629-1695) Google Earth Huygens’ wave construction