Question on how a radio transmits

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In summary, EM wave emission on a particle level occurs when an electron jumps to a lower energy level and emits a photon. This emission is described by a wave, allowing light to be treated as a wave in most circumstances. However, there are other ways to produce EM radiation, such as accelerating charges, which is used in antenna transmission. In metals, only the free conduction electrons can move, and they do so via an applied potential.
  • #1
BigMacnFries
My understanding of EM wave emission on a particle level is that when an electron jumps to a lower energy level it emits a photon. The probability of where you will find this photon is described by a wave, so when you have a lot of photons you are safe to treat light as a wave (in most circumstances).
Radios work under frequency modulation or amplutude modulation. Say for amplutude modulation the frequency is constant and the strenght of the EM wave is varied. Does this mean on an emmission level the atoms in the metal are simultanously emitting a large amount of photons one microsecond then not as many photons the next microsecond. I am confused as to what goes on inside an antenna when a signal is transmitted.
 
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  • #2
BigMacnFries said:
My understanding of EM wave emission on a particle level is that when an electron jumps to a lower energy level it emits a photon. The probability of where you will find this photon is described by a wave, so when you have a lot of photons you are safe to treat light as a wave (in most circumstances).

But this is NOT the only way to produce EM radiation. Put a bunch of electrons in a ring and make it go round and round, and you will also get EM radiation. Or make the electrons jiggle up and down. You get the same.

Accelerated charges radiate. This is the principle being used in antenna transmission. At the simplest and most naive case, you have current oscillating in an antenna, thus charges oscillating back and forth.

Zz.
 
  • #3
Do charges emit when the deaccelarate, accelerate or both?
 
  • #4
Both, the only difference between the two is a negative sign.
 
  • #5
In a radio antenna is it the free electrons in the metal that move around in systematic ways to create the transmission, if so how do they move?
 
  • #6
BigMacnFries said:
In a radio antenna is it the free electrons in the metal that move around in systematic ways to create the transmission, if so how do they move?

In metals (and antenna are usually made of metals), the "free" conduction electrons are the only ones that can move. How they move? Via the applied potential, the same way the AC current in your household wires moves.

Zz.
 

Related to Question on how a radio transmits

1. How does a radio transmit signals?

A radio transmits signals by converting sound waves into electrical signals, which are then amplified and sent out through an antenna. The antenna emits electromagnetic waves, which are picked up by a receiver on another device, such as a radio or car stereo.

2. What is the purpose of the antenna in a radio?

The antenna in a radio is used to transmit and receive electromagnetic waves. It picks up the electrical signals from the radio's circuitry and converts them into radio waves, which are then sent out into the air.

3. How does a radio receiver pick up signals?

A radio receiver picks up signals by using an antenna to capture the radio waves emitted by a transmitter. The receiver then converts these waves back into electrical signals, which are amplified and processed to produce sound.

4. What type of waves are used in radio transmissions?

Radio transmissions use electromagnetic waves, which are a type of energy that can travel through space. These waves have a specific wavelength and frequency that determine their properties and how they are used in different types of radios.

5. How does the distance between a radio transmitter and receiver affect the signal?

The distance between a radio transmitter and receiver can affect the strength and clarity of the signal. The farther apart they are, the weaker the signal may be due to obstacles and interference. Additionally, the frequency of the waves used can also affect the distance that the signal can travel.

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