Unraveling the Mystery of Particle Accelerators and High-Speed Travel

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SUMMARY

Particle accelerators, such as the Tevatron at Fermilab and the Large Hadron Collider (LHC) at CERN, can accelerate protons to 99.99% of the speed of light (c) by utilizing immense amounts of energy and incremental acceleration techniques. According to the theory of relativity, as an object approaches the speed of light, its mass increases, requiring exponentially more energy for further acceleration. The energy required to accelerate a single proton to 99% of c can be calculated using classical kinetic energy formulas or by incorporating the relativistic gamma factor. The number of revolutions needed for a proton to reach this speed depends on various factors, including the type of acceleration mechanism and the design of the accelerator.

PREREQUISITES
  • Understanding of Einstein's theory of relativity
  • Familiarity with kinetic energy calculations
  • Knowledge of particle accelerator design and operation
  • Basic principles of high-energy physics
NEXT STEPS
  • Research the kinetic energy formulas for relativistic particles
  • Explore the design and operational principles of the Large Hadron Collider (LHC)
  • Investigate different acceleration mechanisms used in particle accelerators
  • Learn about the implications of mass-energy equivalence in high-speed travel
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Physicists, engineers, and students interested in high-energy physics, particle acceleration, and the practical applications of relativity in modern science.

amt
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So, according to Relativity, as an oject approaches the speed of light, it's mass increases and the Energy required to sustain the motion goes to infinity, basically making high speed travel almost impossible.

How is it that Particle accelerators are able to accelerate Protons at 99.99% of 'c'? Protons do possesses mass don't they?
 
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amt said:
So, according to Relativity, as an oject approaches the speed of light, it's mass increases and the Energy required to sustain the motion goes to infinity, basically making high speed travel almost impossible.

How is it that Particle accelerators are able to accelerate Protons at 99.99% of 'c'? Protons do possesses mass don't they?

They are able to do that using lots and lots of energy/power/electricity, and by kicking the particles faster a little bit at a time during each pass. It is why the Tevatron at Fermilab is so large, and why the LHC being built at CERN is even larger. Just to go from 99.99%c to 99.999%c takes A LOT of resources.

Zz.
 
To accelerate 1 proton to 99% of 'c', how much energy is required?

If the particle accelerator has a radius of 5 miles, how many revolutions has the proton got to make before achieving 99% of 'c'?

Thanks.
 
amt said:
To accelerate 1 proton to 99% of 'c', how much energy is required?

If the particle accelerator has a radius of 5 miles, how many revolutions has the proton got to make before achieving 99% of 'c'?

Thanks.

Er... just find the KE with v=0.99c if you want to do this classically, or add a "gamma" factor into the relatistic KE. That will give you roughly the ballpark values.

The 2nd question does not have an answer because it depends on A LOT of things, such as what kind of acceleration mechanism is being used, how many cells are in the linac, etc.

Zz.
 

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