Sending information on light waves

In summary,The answer to the question of how information is sent on light waves is that it is essentially the same as with radio waves. You encode the information in different ways, and the reciever is generally tuned to look for specific frequencies.
  • #1
um0123
152
0
just likes radios and such. i had a brief discussion with my math teacher on the subject, my math teacher was an electonical engineer at Bell Laboratories for 10 years, and i asked if its possible with radio, can't it be done with any light? He said yes. what i didnt ask him was, how exactly it works, because we were in the middle of class.

so how does information travel on light waves?

bonus quesiton: what would it look like if it was sent through visible light?
 
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  • #2
It would work the exact same way as with RF waves. Radio waves are the same thing as light, so the same techniques can be used. You modulate the information in by using varations in the frequency, amplitude, and/or phase of the signal.
 
  • #3
As Born2bwire said visible light and radio waves are two types of the same thing. Visible light is just high frequency radio waves, the same techniques could be used.

As for what it would look like, it would depend on how you encoded the information. The two common bands on a radio are AM and FM, or amplitude and frequency modulation. In visible light amplitude is brightness and frequency is color. So if you transmitted information in visible light by modulating the amplitude it would get more and less bright. If you did it by modulating the frequency it would change color.
 
  • #4
Or, for that matter, you can "send information on light" by clicking a flashlight on and off and using Morse code!
 
  • #5
Also see http://en.wikipedia.org/wiki/Optical_fiber" [Broken].
 
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  • #6
HallsofIvy said:
Or, for that matter, you can "send information on light" by clicking a flashlight on and off and using Morse code!
A traffic light is another example as are brake lights.
 
  • #7
I stare at lightbulbs wondering if information is possibly encoded there...
 
  • #8
so if some perseon had a radio tower that sent out visible light instead of radio light it would make everyone in the area see a tinted color of whatever color he was sending out?
and also, i knew that radio and visible light are both the light, but what i mean is, how is information sent on these waves. We cannot see radio waves and yet they carry information about sound on them. How exactly can it carry this information? what is chaging within the waves to send this information to the reciever?
 
  • #9
Er... you do know that optical fiber transmits signal via light, don't you?

Zz.
 
  • #10
excuse me, I am only in high school... so i don't know exactly what optical fiber is, i have played around with it, and know its used for transmitting internet across the world, and know its used in computers. But i don't know how exactly how it works. I am asking how is information sent on light waves. but please, i am very interested in this, and would love to hear more about optical fiber also.
 
  • #11
The answer is essentially what has already been said. Light waves, like radio waves, are just electromagnetic radiation, classified according to their frequency (or wavelength). The general idea of transmitting information is fairly simple. You have a transmitter, which takes some signal, such as a sound or an image for example, and encondes it into a specific sine wave which is transmitted through the air. Your reciever is generally tuned to look for specific frequencies, which it picks up and decodes back into the original information (sound or image, for instance). Both transmitter and reciever are typically what you see everyday as antennas.

The information is encoded in various ways, as was already mentioned. AM is amplitude modulation, where you change the amplitude (you can sort of think of this as the "volume" or "brightness" of the wave). FM is frequency modualation, where you just slightly modulate the frequency. There are other ways to do it too, such as PM or pulse modulation where you basically turn the signal on and off. When you really think about it, these modulations in the signal are no different than the simple examples of morse code or the traffic light already used. There is a kind of "key" by which you can encode and decode the signals, and this is done through various kinds of electronic circuits, the design of which is considerably more complex than could be described here.
 
  • #12
In fact, if you ask a question, conveying information by sound waves, and that person nods "yes", information has been conveyed to you via light!
 
  • #13
HallsofIvy said:
In fact, if you ask a question, conveying information by sound waves, and that person nods "yes", information has been conveyed to you via light!

not to be rude, but...duh...

anyway, thanks for the information, i want to do soem more research on this, though. It has always intereted me how you get picture on your TV just from electonic cables, or how sound can be picked up from radio wave signals.
 
  • #14
um0123 said:
not to be rude, but...duh...

anyway, thanks for the information, i want to do soem more research on this, though. It has always intereted me how you get picture on your TV just from electonic cables, or how sound can be picked up from radio wave signals.

Well remember, the same signals that go across telecommunication lines and cable tv lines aren't the signals that pop up on your TV or telephone speaker or what have you. The signals are interpreted by electrical equipment that tells, in a television for example, a system of projector, magnets, and other things how to display an imagine using actual light thatyou can see. In radio's case, again, your electrical device, ie your radio, picks up radio waves and interprets them into signals that run the speakers which are actually responsible for creating sound.
 
  • #15
i understand
 
  • #16
Blenton said:
I stare at lightbulbs wondering if information is possibly encoded there...
Try the TV or pictures for a change.:biggrin:
 
  • #17
um0123 said:
so if some perseon had a radio tower that sent out visible light instead of radio light it would make everyone in the area see a tinted color of whatever color he was sending out?
Yes, if radio towers broadcasted in the visible then you would be able to see the towers shine some color. For AM stations the brightness of the tower would flicker, and for AM stations the color of the tower would flicker. In both cases the sound information is encoded in the flickering.

um0123 said:
and also, i knew that radio and visible light are both the light, but what i mean is, how is information sent on these waves. We cannot see radio waves and yet they carry information about sound on them. How exactly can it carry this information? what is chaging within the waves to send this information to the reciever?
I think Born2bwire's answer is complete.
Born2bwire said:
You modulate the information in by using varations in the frequency, amplitude, and/or phase of the signal.
But also important is that you always have to establish some convention so that the sender encodes the information and the reciever decodes the same information. For example, a traffic light encodes information about the required action in both the frequency (color) and amplitude (brightness) of the traffic lights. If some traffic light were to use a blue light to encode a "Stop" message then the decoding would not work correctly and the information would not be transfered. Similarly with any other information transmission system. There are an unlimited number of possible conventions.
 

1. What is the speed of light?

The speed of light in a vacuum is approximately 299,792,458 meters per second (m/s). This is a fundamental constant in physics and is denoted by the symbol "c".

2. How do light waves carry information?

Light waves carry information through a process called modulation. This involves changing the amplitude, frequency, or phase of the light wave in order to encode information. The encoded light can then be detected and decoded by a receiver.

3. Can light waves travel through any medium?

No, light waves can only travel through transparent materials such as air, water, and glass. They cannot travel through opaque materials because their particles absorb and reflect the light, preventing it from passing through.

4. What is the relationship between light waves and electromagnetic radiation?

Light waves are a type of electromagnetic radiation, which is a form of energy that travels through space in the form of waves. Other types of electromagnetic radiation include radio waves, microwaves, and X-rays.

5. How do we control the direction of light waves?

The direction of light waves can be controlled through the use of lenses, mirrors, and other optical devices. These devices can refract, reflect, or diffract the light, causing it to change direction and allowing us to manipulate its path.

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