Charged Particles and Ionization

In summary, a bubble chamber only shows tracks from particles with a charge because they ionize the hydrogen in the chamber. Neutral particles, such as photons, can also ionize atoms but they do not leave tracks in the chamber. The distance between two points of decay in a track corresponds to the flight distance of the neutral particle. However, neutral particles only ionize on rare close collisions, while charged particles have a longer range electric field that can cause low energy ionization events at large distances, forming a track.
  • #1
Vortexology
2
0
I'm studying A Level physics. I've read that a bubble chamber only shows up particles with a charge, as they ionize the hydrogen in the chamber, leaving tracks, whereas neutral particles don't show up. Is it therefore true then that only charged particles ionize? Because UV-radiation is ionizing and photons don't have a charge.

Is it that charged particles are the only ones to ionize in the circumstances, i.e. in hydrogen?

Hope this makes sense.
 
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  • #2
Photons can ionize atoms, but they are destroyed in the process (or lose a significant fraction of their energy) - they do not leave tracks in the bubble chamber. The electrons which were hit by the photons can leave those tracks, however.
 
  • #3
mfb said:
Photons can ionize atoms, but they are destroyed in the process (or lose a significant fraction of their energy) - they do not leave tracks in the bubble chamber. The electrons which were hit by the photons can leave those tracks, however.

So say if a charged particle decays and one of the products is neutral, which then goes on to decay into two oppositely charged particles, then the distance where the track disappears - I.e where the neutral particle was - is caused by the time it takes for that particle to be destroyed? Sorry I'm still a bit confused about this.
 
  • #4
Vortexology said:
So say if a charged particle decays and one of the products is neutral, which then goes on to decay into two oppositely charged particles, then the distance where the track disappears - I.e where the neutral particle was - is caused by the time it takes for that particle to be destroyed?
Right, the distance between the two points of decays correspond to the flight distance of the neutral particle.
 
  • #5
Neutral particles can ionize, but they do so only on rare close collisions. For example a photon ionizes on each Compton scattering event, giving a large amount of energy to a single charged electron, but then passes a long distance without any interaction save slight retardation and refraction. A neutron ionizes when it bounces off a proton - but these are rare events, and most of them give a lot of energy to the proton. Small energy collisions are possible, but these are especially rare - they only happen on a rare glancing collisions.

Whereas a charged particle has a long range electric field. It generates a few high energy collisions on direct hits to charge centres, but a lot of low energy ionization events at large distances. It is these low energy ionizations that form a track.
 

Related to Charged Particles and Ionization

1. What is the difference between charged particles and neutral particles?

Charged particles have an excess or deficiency of electrons, giving them a positive or negative charge, respectively. Neutral particles have an equal number of protons and electrons, resulting in a net charge of zero.

2. How do charged particles become ionized?

Charged particles can become ionized through various processes such as exposure to high temperatures, collisions with other particles, or interactions with electromagnetic radiation. This results in the gain or loss of electrons, creating an ion.

3. What is the significance of ionization in chemistry and physics?

Ionization plays a crucial role in many chemical and physical processes. It can affect the reactivity, stability, and properties of particles, leading to changes in matter and energy. It also has applications in fields such as energy production, medicine, and environmental sciences.

4. How are charged particles and ionization related to electricity?

Charged particles are essential for the flow of electricity. In conductors, such as metals, charged particles can move freely, creating an electric current. Ionization also contributes to the formation of static electricity and the behavior of electric fields.

5. Can ionization occur in gases and liquids?

Yes, ionization can occur in gases and liquids. In gases, collisions between particles can lead to ionization, while in liquids, ionization can occur through chemical reactions or exposure to radiation. The degree of ionization in these states of matter can have significant effects on their properties and behavior.

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