Electromagnetic Radiation

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Transcription:

Electromagnetic Radiation aka Light Properties of Light are simultaneously wave-like AND particle-like Sometimes it behaves like ripples on a pond (waves). Sometimes it behaves like billiard balls (particles). Called the wave-particle duality in quantum mechanics.

Electromagnetic Radiation also known as Light Radiation sounds scary, but there are many benign forms of radiation - including visible light, radio waves, and infrared radiation. These are all fundamentally the same stuff.

Electromagnetic Radiation Light has properties that are wave-like Sometimes light behaves like ripples on a pond (waves). Led physicists in the 19th century to hypothesize a luminiferous aether - an all pervasive substance that was the pond to light s ripples. As physics was understood at that time, collective, wave-like phenomena required that there being a medium (aether) in which the waves propagated.

Michelson-Morley Experiment Performed on campus in 1887 If light was a wave in some ethereal medium, it s speed should depend on our motion through that medium, getting a boost from Earth s orbital speed (30 km/s) when parallel to it, and not when perpendicular. Hypothetical Aether Instead, Michelson & Morley measured the speed of light to be invariant at 300,000 km/s irrespective of direction. This led to Einstein s Special Relativity.

Electromagnetic Radiation aka Light Properties of Light are simultaneously wave-like AND particle-like Sometimes it behaves like ripples on a pond (waves). Sometimes it behaves like billiard balls (particles). Called the wave-particle duality in quantum mechanics.

Particles of Light Particles of light are called photons. Each photon has a wavelength and a frequency. The energy of a photon depends on its frequency.

Wavelength and Frequency inversely related long wavelength, low frequency short wavelength, high frequency

Wavelength & Frequency λ = wavelength (separation between crests) f = frequency (rate of oscillation) c = speed of light = 300,000 km/s λf = c

Wavelength, Frequency, and Energy photon energy: E = hf = hc/λ h = 6.626 10 34 joule s (Planck s constant) The frequency f can be arbitrarily high or low, so the energy carried by an individual photon can be arbitrarily high or low. However, the energy always comes in a finite unit of one photon at a time, not continuously (led to quantum mechanics).

Spectrum Originally, the range of colors obtained by passing sunlight through a glass prism Quantitatively, the Intensity of electromagnetic radiation as a function of wavelength

Long wavelength Low energy Low frequency Short wavelength High energy High frequency E, f increasing λ decreasing

Our eyes are only sensitive to a factor of two range in wavelength, from 380nm (violet) to 700nm (deep red).

Same stuff, different Energy: Electromagnetic Radiation Radio Energy per photon increasing microwave infrared visible light ultraviolet X-ray gamma ray

Electromagnetic Radiation Radio microwave } infrared visible light ultraviolet X-ray gamma ray

Electromagnetic Radiation Radio microwave infrared visible light ultraviolet X-ray gamma ray

Electromagnetic Radiation Radio microwave infrared visible light ultraviolet X-ray gamma ray

Electromagnetic Radiation Radio microwave infrared visible light ultraviolet X-ray gamma ray

Electromagnetic Radiation Radio microwave infrared visible light ultraviolet X-ray gamma ray

Electromagnetic Radiation Radio microwave infrared visible light ultraviolet X-ray gamma ray

Same stuff, different Energy: Radio microwave Energy per photon increasing infrared visible light benign ultraviolet X-ray gamma ray potentially dangerous Ionizing radiation

How do light and matter interact? Emission Absorption Transmission: Transparent objects transmit light. Opaque objects block (absorb) light. Reflection or scattering we see by scattered light

How do light and matter interact? Emission Absorption Transmission: Transparent objects transmit light. Opaque objects block (absorb) light. Reflection or scattering we see by scattered light

transmission & absorption opaque (photons don t reach ground) opaque transparent transparent Earth s atmosphere is opaque to light at most wavelengths. It is transparent only to visible light and radio waves - and is only completely transparent to visible light when it isn t cloudy.

Reflection and Scattering Mirror reflects light in a particular direction. Movie screen scatters light in all directions.

We see by scattered light Interactions between light and matter determine the appearance of everything around us.

optical optical photons scattered ambient light infrared infrared photons emitted by warm object Temperature scale illustrated by false color

Production of light Why do stars shine? They re hot!

Thermal Radiation Hot, dense objects emit thermal radiation includes stars, planets, and you. An object s thermal radiation spectrum depends on its temperature.

Properties of Thermal Radiation 1. Hotter objects emit more light at all frequencies per unit area. 2. Hotter objects emit photons with a higher average energy. Spectrum: Intensity Wavelength λ

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