How Far Does a Laboratory Travel from a Muon's Perspective?

In summary, the mean lifetime of a muon is 2.20E-6 s and it decays with a speed of 0.600c. In the reference frame of the muon, the laboratory travels 316.8 meters in one mean lifetime.
  • #1
Winzer
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Homework Statement


The muon is an elementary particle that decays with a mean (rest) lifetime of 2.20E-6 s. A beam of muons has a speed of 0.600c. In the reference frame of the muon, how far does the laboratory travel in one mean lifetime?

Homework Equations


[tex]L=\frac{L_o}{\gamma}[/tex]

The Attempt at a Solution


a. The muon has to travel (2.20E-6 s)(.60c)=396m seen from the muon
so isn't it [tex]L=\frac{L_o}{\gamma}[/tex] where [tex] \gamma=1.25[/tex]
that would equall 316.8 m to the muon
b. 396 m
 
Last edited:
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  • #2
anything?
 
  • #3
Or maybe it is the muon that sees the lab travel 396m?:cry:
 
  • #4
:cry:
 
  • #5
Don't be shy now
 

What is a Muon Decaying particle?

A Muon Decaying particle is a subatomic particle that belongs to the same family as the electron and has a negative charge. It is unstable and decays into other particles after a short period of time.

How long does a Muon Decaying particle last?

A Muon Decaying particle has a half-life of approximately 2.2 microseconds, meaning that after that time, only half of the original particles will remain.

What particles does a Muon Decaying particle decay into?

When a Muon Decaying particle decays, it can produce a variety of particles, including electrons, neutrinos, and other particles. The exact decay products depend on the energy and type of muon.

Why do scientists study Muon Decaying particles?

Muon Decaying particles are important to study because they can provide insights into fundamental physics, such as the Standard Model of particle physics. They also play a role in understanding the origin of the universe and the behavior of matter and energy.

Where are Muon Decaying particles found?

Muon Decaying particles are found in the natural environment, specifically in cosmic rays that constantly bombard the Earth's atmosphere. They can also be produced in particle accelerators for scientific research.

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