A particle and its anti-particle have the same mass and charge, but the charges will be of opposite polarity. A particle and its anti-particle annihilate and produce two photons. The particle has kinetic energy 2.0 MeV collides head on with its anti-particle that is at rest. Find the energy and momentum of each photon. (Given the mass of each particle is 0.632MeV/c²) Select the correct answer choice: වම (d) E-1.088 MeV E=3.264 MeV E = 1.632 MeV E=1.088 MeV p=1.67 MeV/c p=1.183 MeV/c p=2.366 MeV/c p=0.835 MeV/c
A particle and its anti-particle have the same mass and charge, but the charges will be of opposite polarity. A particle and its anti-particle annihilate and produce two photons. The particle has kinetic energy 2.0 MeV collides head on with its anti-particle that is at rest. Find the energy and momentum of each photon. (Given the mass of each particle is 0.632MeV/c²) Select the correct answer choice: වම (d) E-1.088 MeV E=3.264 MeV E = 1.632 MeV E=1.088 MeV p=1.67 MeV/c p=1.183 MeV/c p=2.366 MeV/c p=0.835 MeV/c
Related questions
Question
Transcribed Image Text:A particle and its anti-particle have the same mass and charge, but the charges will be of
opposite polarity. A particle and its anti-particle annihilate and produce two photons. The
particle has kinetic energy 2.0 MeV collides head on with its anti-particle that is at rest.
Find the energy and momentum of each photon.
(Given the mass of each particle is 0.632MeV/c²)
Select the correct answer choice:
(a) E = 1.088 MeV
E = 3.264 MeV
(b)
(c)
(d)
E = 1.632 MeV
E = 1.088 MeV
p=1.67 MeV/c
p=1.183 MeV/c
p=2.366 MeV/c
p=0.835 MeV/c
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
This is a popular solution!
Trending now
This is a popular solution!
Step by step
Solved in 3 steps with 4 images
