What Are Teraelectronvolts (TeV) & the LHC?

In summary, the Large Hadron Collider (LHC) circulates protons in a 27km ring of magnets and uses special radio frequency cavities to give the beam a 485,000 volt kick per revolution. After 20 minutes, this adds up to 6.5 tera electron volts (TeV). The magnets do not add energy to the beam, but simply guide it around the ring. Currently, the LHC is only accelerating to about 3.5 TeV per beam.
  • #1
lederhosen
9
0
Ok when they say things such as teraelectronvolts i don't know what sort of context that applies to. like are they pumping that much energy into the magnets or what are they doing with all those electron volts its confusing.
like what do they mean when they say beam x number of teraelectronvolts per beam?
 
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  • #2
What LHC does is circulate the protons in a 27 Km circumference ring of magnets, so the circulation time is about 90 microseconds per revolution. Every time the beam comes around, special radio frequency (RF) cavities give the beam a 485,000 volt kick (acceleration). In 20 minutes, the kicks add up to 485,000 x 60 x 20/(90 x 10-6) = 6,500,000,000,000 volts, or 6.5 trillion volts, or 6.5 tera electron volts (TeV). There are actually two beams, one going in each direction. The magnets do not pump any energy into the beam, they just guide the beam around in the ring. (Right now, they are only accelerating to about 3.5 TeV per beam).

Bob S
 
  • #3
thanks. that cleared a lot up
 

Related to What Are Teraelectronvolts (TeV) & the LHC?

1. What are teraelectronvolts (TeV)?

Teraelectronvolts (TeV) are a unit of energy used in particle physics. One TeV is equivalent to one trillion electronvolts.

2. How are TeV and the Large Hadron Collider (LHC) related?

The LHC is a particle accelerator that is capable of producing collisions with energies up to 14 TeV. It is used by scientists to study the fundamental building blocks of matter and the forces that govern them.

3. What is the significance of reaching TeV energies in particle colliders?

Reaching TeV energies allows scientists to study particles and phenomena that were previously unreachable. It also allows for the creation of new particles that may have existed in the early universe.

4. How is the LHC able to reach such high energies?

The LHC uses powerful magnets to accelerate particles to near the speed of light and then collides them together. This process releases a huge amount of energy, reaching up to 14 TeV.

5. What are some potential applications of TeV and LHC research?

TeV and LHC research can lead to a better understanding of the universe and its origins, as well as potential advancements in technology and medical treatments. It can also help us answer fundamental questions about the nature of matter and energy.

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