Clarification on Weak Nuclear Force

W+ and W- are responsible for the transformation of quarks in beta decay.In summary, the weak nuclear force is responsible for beta decay and plays no role in alpha or gamma radiation. The W+, W-, and Z0 bosons carry the radiation force, with the W+ and W- being responsible for transforming quarks in beta decay. The Z0 has no role in beta decay.
  • #1
FeDeX_LaTeX
Gold Member
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Hello;

I don't know a lot about the weak nuclear force, so I wanted to ask if some of these statements are correct;

-The weak nuclear force is what is responsible for radioactive decay
-When alpha and beta radiation occurs, the W+, W- and Z0 bosons are what carry the radiation force
-The W+, W- and Z0 bosons have a positive, negative, and neutral charge respectively
-The weak nuclear force is responsible for alpha, beta AND gamma radiation

Thanks.
 
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  • #2
Weak force is responsible for beta decay. Alpha is a strong force effect. Gamma rays are byproducts of other decays. (This is a simplified picture).

The boson description is correct, but it applies only to the beta decay.
 
Last edited:
  • #3
What roles do each of the W+, W- and Z0 particles play in weak force during beta decay?
 
  • #5
Z0 play no role in beta decay
 

Related to Clarification on Weak Nuclear Force

1. What is the weak nuclear force?

The weak nuclear force is one of the four fundamental forces of nature, along with gravity, electromagnetism, and the strong nuclear force. It is responsible for the decay of subatomic particles and plays a crucial role in nuclear reactions.

2. How is the weak nuclear force different from the other fundamental forces?

The weak nuclear force is different from the other fundamental forces because it has a very short range (about 10^-18 meters) and is much weaker than the other forces. It also only affects certain types of particles, such as quarks and leptons, whereas the other forces act on all particles.

3. How was the weak nuclear force discovered?

The weak nuclear force was first proposed by physicists Enrico Fermi and Wolfgang Pauli in the 1930s to explain the radioactive decay of atoms. It was later confirmed through experiments in the 1950s and 1960s involving particle accelerators and the study of subatomic particles.

4. What are the implications of the weak nuclear force?

The weak nuclear force has many important implications in the field of physics. It helps explain the stability of atoms and the processes involved in nuclear reactions. It has also played a crucial role in the development of the Standard Model, which is a theory that describes the fundamental particles and forces of the universe.

5. How is the weak nuclear force related to the other fundamental forces?

The weak nuclear force is related to the other fundamental forces through a process called electroweak unification. This theory proposes that the weak nuclear force and the electromagnetic force were once unified at very high energies, but as the universe cooled and expanded, they separated into two distinct forces. This theory is still being studied and researched by scientists today.

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