1 Properties of Light 2 Electromagnetic Waves: An electromagnetic wave is an oscillating combination of a magnetic and an electric field. It can be visualized.

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Presentation transcript:

1 Properties of Light

2 Electromagnetic Waves: An electromagnetic wave is an oscillating combination of a magnetic and an electric field. It can be visualized as two perpendicular waves (electric and magnetic).

3 Speed of Light: In a vacuum, all electromagnetic waves have a velocity of 300,000,000 m/s! ( 3x10 8 m/s) That’s 186,000 miles per second!

4 Electromagnetic Spectrum: An electromagnetic spectrum is a “map” of the total range of waves. Usually, high frequency (low λ) is on the right. Low frequency (high λ) is on the left.

5 Notice the wide range of waves. We only perceive visible light, a tiny fraction of the whole spectrum...

6 Sometimes an object may have a very different appearance depending on the wavelength of light you are using to observe it. Ex: visible light and infrared picture of the constellation Orion

7 Historical attempts to explain light Ancient ideaAncient idea –light emanates from eye to illuminate object Newton (18 th century)Newton (18 th century) –light is particulate and moves faster in transparent materials Young (1801)Young (1801) –interference experiments demonstrates wave nature of light Einstein (early 20 th century)Einstein (early 20 th century) –explains photoelectric effect by assuming a particulate nature of light (lumps of waves with E = hf)

8 Known Properties of Light Explained classically by Maxwell’s Equations (in 1860)Explained classically by Maxwell’s Equations (in 1860) Transverse WaveTransverse Wave –polarization Wave speedWave speed –speed of light in a vacuum 3.00  10 8 m/s3.00  10 8 m/s –speed of light slower in media Particle (?)Particle (?) –the photon (E = hf)

9 Dual Nature of Light  Light exhibits wave phenomena as a light wave is propagated by interchange of energy between varying electric and magnetic fields (Maxwell)  Light acts like particles composed of kinetic energy and momentum when light interacts with matter Both wave and particle!

10 Wave Nature of Light Wave Nature  Light exhibits wave characteristics like: –Diffraction – bending around an obstacle –Interference – “adding” & “subtracting” energy –Doppler Effect – change in frequency due to motion –Polarization - filtering Particles are not able to do any of those characteristics

11 Polarization Unpolarized Planepolarized (Source of light is excited atoms)

12 Methods of chararacterizing the light wave ray constructionray construction –lines perpendicular to wavefronts showing direction of motion of wave the plane wavethe plane wave

13 Polarizer-Analyzer

14 Particle Nature of Light Particle Nature  The Photoelectric Effect –Light having a frequency above some minimum value and incident on metals causes electrons to be emitted from the metal Albert Einstein explained the phenomenon using quantum theory developed by Max Planck

15 Transparent Materials: Transparent materials allow light to pass through in a straight line. Examples: glass, water

16 The explanation for why certain materials are transparent and others aren’t, depends on the atoms of the material and their vibrations. It’s fairly accurate to imagine atoms in continual motion. Imagine they are linked together with springs!

17 When light hits a transparent material, it causes the atoms to vibrate only a little. The wave has very little energy lost to those vibrating atoms. The wave is free to pass through the transparent material.

18 Opaque Materials: An opaque material doesn’t allow light to pass through it. In this case, the light causes the atoms of the material to vibrate a great deal. This dissipates the energy of the wave, which can’t pass through the material...

19 When light doesn’t pass through an opaque object, it is absorbed. The energy of the wave is transferred into heat.

20 If not absorbed, the light can be reflected from the object.

21 Materials can be transparent to certain wavelengths, but not others.. For example, glass is transparent to visible light, but not to ultraviolet or infrared: