Solving for X's Baryon & Lepton Number

Cicicicici
Messages
15
Reaction score
0

Homework Statement


Screen Shot 2018-05-26 at 6.59.37 pm.png


Homework Equations

The Attempt at a Solution


I worked out that the baryon number of X is 0 and the lepton number is +1 which means x is a lepton.
However, when I work out the charge of X, do I add W+ to the left hand side or right hand side of the equation? [/B]
 

Attachments

  • Screen Shot 2018-05-26 at 6.59.37 pm.png
    Screen Shot 2018-05-26 at 6.59.37 pm.png
    9.9 KB · Views: 1,229
Physics news on Phys.org
Which way does the W+ go?
Hint: law of conservation of charge.
 
Simon Bridge said:
Which way does the W+ go?
Hint: law of conservation of charge.
from the proton to the neutron? because proton is +1?
 
Simon Bridge said:
Which way does the W+ go?
Hint: law of conservation of charge.
Cicicicici said:
from the proton to the neutron? because proton is +1?
It should be pointed out that internal lines in Feynman diagrams do not ”go” in any direction. As such, the labelling of ##W^+## in the diagram is dubious as the diagram equally well represents the other time ordering where one might say that it is a ##W^-## going from the right to the left. In fact, people often take Feynman diagrams way too literally as if the lines were representing the worldlines of little balls moving around. They are nothing but (very very useful) graphical representations of terms in a mathematical series expansion.

When it comes to charge conservation, you can always draw an arrow on a line representing the charge flow and use charge conservation at each vertex. (You can do this for any charge, not just electric charge.)

You are correct that it must be a lepton. What charge must it have based on the above?
 
  • Like
Likes Simon Bridge
Orodruin said:
It should be pointed out that internal lines in Feynman diagrams do not ”go” in any direction. As such, the labelling of ##W^+## in the diagram is dubious as the diagram equally well represents the other time ordering where one might say that it is a ##W^-## going from the right to the left. In fact, people often take Feynman diagrams way too literally as if the lines were representing the worldlines of little balls moving around. They are nothing but (very very useful) graphical representations of terms in a mathematical series expansion.

When it comes to charge conservation, you can always draw an arrow on a line representing the charge flow and use charge conservation at each vertex. (You can do this for any charge, not just electric charge.)

You are correct that it must be a lepton. What charge must it have based on the above?
zero? so it is a neutrino?
 
Cicicicici said:
zero? so it is a neutrino?
Yes.
 
Orodruin said:
Yes.
Thank you!
 
Cicicicici said:
Thank you!
Cicicicici said:
Thank you!
And what type of neutrino is it ?
 

Similar threads

What Are Key Topics for Preparing a Particle Physics Exam?
Replies
2
Views
2K
How do I determine if a certain nuclear decay is allowed?
Replies
4
Views
2K
Calculation of right-handed fraction of leptons (pi decay)
Replies
1
Views
2K
What is the justification for the branching ratios of tau lepton decay?
Replies
7
Views
2K
Tau leptonic decay - Lifetimes and modes
Replies
13
Views
5K
Which particle decays more frequently in Pi+ decays: muon or electron?
Replies
10
Views
6K
Decay Widths of Neutral Vector Mesons
Replies
6
Views
3K
I Conservation of Lepton and Baryon numbers
Replies
1
Views
3K
Kaon decay to a lepton and associated neutrino
Replies
4
Views
3K
What is the maximum energy of the Λ particle after the Σ0 baryon decay?
Replies
31
Views
5K

Hot Threads

Recent Insights

Back
Top