You have no doubt heard about the Doppler Effect - what is it exactly? The key in the Doppler effect is that motion makes the "detected" or "perceived" frequencies higher or lower. We will consider this first for sound and then generalize to light.
Let's play around with this:
Let's play around with this:
http://www.lon-capa.org/~mmp/applist/doppler/d.htm
How how the number of waves you receive per second will be the same regardless of where you stand, UNLESS the source is moving. And then:
How how the number of waves you receive per second will be the same regardless of where you stand, UNLESS the source is moving. And then:
If the source is moving toward you, you detect/measure a higher frequency - this is called a BLUE SHIFT.
If the source is moving away from you, you detect/measure a lower frequency - this is called a RED SHIFT.
If the source is moving away from you, you detect/measure a lower frequency - this is called a RED SHIFT.
It's worth noting that the effect also works in reverse. If you (the detector) move toward a sound-emitter, you'll detect a higher frequency. If you (the detector) move away from a sound-emitter, you'll detect a lower frequency.
Mind you, these Doppler effects only happen WHILE there is relative motion between source and detector (you).
And they also work for light. In fact, the terms red shift and blue shift refer mainly to light (or other electromagnetic) phenomena.
If your computer runs Java:
If your computer runs Java:
http://falstad.com/mathphysics.html
Run the Ripple tank applet -
http://falstad.com/ripple/
Distant galaxies in the universe are moving away from us, as determined by their red shifts. This indicates that the universe is indeed expanding (first shown by E. Hubble). The 2011 Nobel Prize in Physics went to local physicist Adam Riess (and 2 others) for the discovery of the accelerating expansion of the universe. Awesome stuff!
http://www.nobelprize.org/nobel_prizes/physics/laureates/2011/
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