Answer:Identifying Strong or Weak Force Interactions

In summary, the conversation discusses determining whether a force interaction is strong or weak. The energy, baryon and lepton numbers are conserved in the given example, but to determine the type of interaction, one must look at the quark content of the reactants and products. The only interaction capable of changing the flavour of quarks is the weak force, making it the correct answer in this case.
  • #1
R0CC0
18
0
Strong or weak force??

Homework Statement


So all I want to know is how you tell if it is a strong or weak force interaction.
e.g. K^+ = pi^0 + pi^0 + pi^+ (all mesons)

So i determined that the energy was concerved:
493.7-135-135-139.6=84.1MeV

baryon and Lepton numbers are also conserved
(0)=(0)

Now having determined that the interaction is possible, how do I tell if it is via strong or weak force.
 
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  • #2


The key here is to look at the quark content of the reactants and products. A positive kaon has an up and an anti-strange quark. Yet none of the pions contain a strange/anti-strange quark.

What is the only interaction capable of changing the flavour of quarks?
 
  • #3


So in this case weak force?
 
  • #4


R0CC0 said:
So in this case weak force?

The weak force is the only interaction that can change the flavour of a quark. The strong force can't.
 
  • #5


Righto Got it now. Thanks!:smile:
 

1. What is a strong force interaction?

The strong force is one of the four fundamental forces in the universe, along with gravity, electromagnetism, and weak force. It is responsible for holding the nuclei of atoms together, overcoming the electromagnetic force that would otherwise cause them to repel each other.

2. What is a weak force interaction?

The weak force is also one of the four fundamental forces in the universe. It is responsible for processes such as radioactive decay and the fusion of hydrogen into helium in the sun.

3. How do you identify a strong force interaction?

Strong force interactions can be identified by their strength, which is much stronger than the electromagnetic force. They also have a short range, only acting within the nucleus of an atom.

4. How do you identify a weak force interaction?

Weak force interactions are weaker than both the strong and electromagnetic forces. They also have a short range, only acting within the nucleus of an atom. Additionally, they are involved in processes that involve the exchange of particles called W and Z bosons.

5. Why is it important to identify strong and weak force interactions?

Understanding and identifying strong and weak force interactions is crucial in studying the behavior of matter and energy in the universe. It helps us to better understand the structure of atoms, the behavior of subatomic particles, and the processes that govern the dynamics of the universe.

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