SPH4U UNIVERSITY PHYSICS

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SPH4 NIVERSITY PHYSICS THE WAVE NATRE OF LIGHT L Light: Wave or Particle? (P.470-476) Light carries energy with it. It is a form of energy. This is obvious to anyone standing out in the sun on a hot summer s day. But (a) how does light travel, and (b) how is the energy of light carried from a source of energy, such as the sun? December 1, 2012 44 - Light: Wave or Particle? 1 The earliest recorded views on the nature of light come to us from the Greeks. Plato thought that light consisted of streamers, or filaments, emitted by the eye and that when these streamers came in contact with an object, sight was achieved. Euclid agreed with him, arguing, How else can we explain that we do not see a needle on the floor until our eyes fall on it? December 1, 2012 44 - Light: Wave or Particle? 2 1

Not all Greeks held the same view. The Pythagoreans believed that light travelled as a stream of fast-moving particles, while Empedocles taught that light travelled as a wave-like disturbance. PYTHAGORAS EMPEDOCLES December 1, 2012 44 - Light: Wave or Particle? 3 By the 17 th century, these apparently contradictory views of the nature of light placed scientists in two camps. Newton was the principal advocate of the particle theory. He was supported by the French mathematician, physicist, and astronomer La Place. December 1, 2012 44 - Light: Wave or Particle? 4 On the other hand, the wave theory was upheld principally by Christiaan Huygens of Holland, also a mathematician, physicist, and astronomer. He, in turn, was supported by Robert Hooke of England, president of the Royal Society and a vigorous personal opponent of Newton. December 1, 2012 44 - Light: Wave or Particle? 5 2

And because of the plausibility of both theories, a scientific debate developed between the followers of Newton and the followers of Huygens that continued for over 300 years. December 1, 2012 44 - Light: Wave or Particle? 6 The basic properties of light that were understood at the time, and that any acceptable theory had to be able to explain, were: straight-line propagation reflection refraction dispersion the ability of light to travel undisturbed across millions of kilometres of space December 1, 2012 44 - Light: Wave or Particle? 7 Newton s Particle Theory of Light Isaac Newton s fascination with the ability of prisms to produce colours from white light (dispersion) led to his development of the particle theory of light. Building on an earlier theory by Descartes, Newton proposed that light corpuscles (little particles) with exceedingly small masses travel in straight lines with a maximum velocity and therefore have kinetic energy. Newton s theory does not require a medium for the light to travel in. Furthermore, he was able to explain the properties of reflection and refraction using his theory. However, Newton s explanation of diffraction showed the shortcomings of his theory. December 1, 2012 44 - Light: Wave or Particle? 8 3

Newton s Particle Theory of Light Newton was not entirely convinced of the correctness of his own particle theory of light and was surprised that some of his proponents approved of it so strongly. Nevertheless, until stronger evidence of wave-like properties was obtained, Newton would not accept a wave model of light. December 1, 2012 44 - Light: Wave or Particle? 9 Huygens Principle & the Wave Theory of Light Christiaan Huygens refined and expanded the wave theory of light, originally proposed by Robert Hooke. Hooke rejected the particle theory partly because two beams of light can pass through each other without scattering each other, as particles do. However, Huygens encountered difficulty when he tried to explain rectilinear propagation using the wave theory of light. According to the wave theory, mechanical waves require a medium through which to move. So what medium was carrying the light energy? This was the primary reason for Newton s rejection of the wave theory. Huygens principle states that all points on a wave front can be thought of as new sources of spherical waves. December 1, 2012 44 - Light: Wave or Particle? 10 Huygens Principle & the Wave Theory of Light Huygens wave theory accurately explained the properties of light as strongly or even more strongly than did Newton s theory in terms of reflection, refraction, partial reflection, partial refraction, diffraction, dispersion, and rectilinear propagation. At that time, however, there were no tests or observations that could eliminate either theory, so Newton s stature in the scientific community (gained for his many and varied contributions, including the laws of motion) resulted in his winning the approval of other scientists for his less eloquent particle theory. December 1, 2012 44 - Light: Wave or Particle? 11 4

Light: Wave or Particle? NEWTON HYGENS theory supporter reflection refraction rectilinear propagation diffraction particle La Place THE WINNER! Since no tests could eliminate either theory, and because of Newton s stature, the particle theory was the accepted theory of light. Y wave Hooke Y December 1, 2012 44 - Light: Wave or Particle? 12 PRACTICE 1. You shine laser light through an open window. The window is like a slit, but the laser light does not diffract at all as it passes through the window. Instead, it travels in a straight line. (a) What does your observation imply about the relative magnitude of the laser's wavelength and the width of the window? (a) since no diffraction occurred then 8/w < 1 or 8 < w (i.e. the wavelength of the laser light < width of window) December 1, 2012 44 - Light: Wave or Particle? 13 PRACTICE 1. You shine laser light through an open window. The window is like a slit, but the laser light does not diffract at all as it passes through the window. Instead, it travels in a straight line. (b) How must you change this experiment so that the electromagnetic radiation (light) does diffract through the window? (b) the wavelength of the laser light cannot be changed so the width of the window must be changed so that 8/w $ 1 December 1, 2012 44 - Light: Wave or Particle? 14 5

PRACTICE 2. Thomas Young showed that light passing through two parallel narrow slits produces a pattern of light and dark fringes. Did this support or contradict Newton s corpuscular theory of light? Explain. the pattern of light and dark fringes contradicted Newton s corpuscular theory if light were like a particle then two bands of light would appear and no more December 1, 2012 44 - Light: Wave or Particle? 15 Check Your Learning TEXTBOOK P.476 Q.8-10 December 1, 2012 44 - Light: Wave or Particle? 16 6

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