Calculation of particle life span

In summary, there is an indirect relationship between the inverse fine-structure constant (alpha) and the life span of elementary particles. This is due to the fact that decays of elementary particles are governed by the weak interaction, which is described by a weak coupling constant G. However, we now know that the weak and electromagnetic interactions are part of a single electroweak interaction, with the weak coupling constant g being only slightly different from the fine structure constant e.
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Is there a relationship between the inverse fine-structure constant (alpha) and the life span of elementary particles?
 
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Indirectly yes. Decays of the elementary particles such as μ → e + νe + νμ are governed by the weak interaction. The original description of the weak interactions was in terms of a weak coupling constant G. We now know that the weak and the electromagnetic interactions are two aspects of a single electroweak interaction, and G ~ g2/MW2 where MW is the mass of the W boson and g is a coupling constant that differs from the fine structure constant only by a small factor: g sin θW = e where θW is the weak mixing angle.
 
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1. What is the purpose of calculating particle life span?

The calculation of particle life span is important in understanding the behavior and stability of particles in various systems. It can also provide insights into the fundamental forces at work within the particles.

2. How is particle life span calculated?

Particle life span is typically calculated using mathematical models and equations based on the particle's decay rate and energy levels. This can vary depending on the type of particle and the specific system it is in.

3. What factors can affect the life span of a particle?

Several factors can influence the life span of a particle, including the particle's energy levels, interactions with other particles, and external forces or fields. These factors can accelerate or slow down the decay process.

4. Can particle life span be measured in real-time?

In some cases, particle life span can be measured in real-time using advanced detection and measurement techniques. However, for certain particles and systems, it may be impossible to directly observe the decay process and the life span must be inferred through indirect methods.

5. How does the concept of particle life span relate to particle physics?

Particle life span is a fundamental concept in particle physics, as it helps us understand the behavior and properties of subatomic particles. It is also an important factor in theories and experiments related to particle interactions and the structure of matter.

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