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Waves, Light & Quanta Tim Freegarde Web Gallery of Art; National Gallery, London.

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Presentation on theme: "Waves, Light & Quanta Tim Freegarde Web Gallery of Art; National Gallery, London."— Presentation transcript:

1 Waves, Light & Quanta Tim Freegarde Web Gallery of Art; National Gallery, London

2 2 Circumference of the earth Eratosthenes of Cyrene (276-195 BC) 5000 stadia ~ 5000 x 180m = 900 km α = β ~ 1/50 circle (Tropic of Cancer)

3 3 Radius astronomicus Reinerus Gemma-Frisius, Leuven measurement of celestial angular distances

4 4 Camera obscura solar eclipse, 24 Jan 1544 Reinerus Gemma-Frisius, Leuven de radio astronomica et geometrica, 1545

5 5 Pinhole camera foil screen pinholeobject image

6 6 Rays light travels in straight lines x 0L a b A BC S P S P x shortest distance between two points equal angles: P = S

7 7 Reflection light travels in straight lines x 0L a b S P S P x shortest distance between two points P b P equal angles: P = S

8 8 Reflection at a curved surface light travels in straight lines shortest distance between two points equal angles: P = S S P suppose we design a surface so that all routes are the same length…?

9 9 Conic sections S P directrix focus PARABOLA focus A focus B ELLIPSE S P

10 10 Concave mirror light travels in straight lines shortest distance between two points equal angles: P = S S P equal times to focus Rf

11 11 Lenses and refraction Hugo of ProvenceNicholas of Rouen Tommaso da Modena (1325-1379) Chiesa San Nicolò, Treviso Ibn al-Haytham ‘Alhazen’ (965-1039)

12 12 Fermat’s principle of least time refraction at a plane surface Pierre de Fermat (1601-1665) x 0L a b A BC S P S P x

13 13 Fermat’s principle of least time refraction at a plane surface Pierre de Fermat (1601-1665) x 0L a b S P S P x light rays follow the path of least time between two points

14 14 Snell’s law of refraction refraction at a plane surface x 0L a b S P S P x light rays follow the path of least time between two points Willebrord Snel van Royen (Leiden, 1580-1626)

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