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Integrated ConceptsIn supernovas, neutrinos are produced
Chapter 33, Problem 50(choose chapter or problem)
Integrated Concepts
In supernovas, neutrinos are produced in huge amounts. They were detected from the \(1987A\) supernova in the Magellanic Cloud, which is about \(120,000\) light years away from the Earth (relatively close to our Milky Way galaxy). If neutrinos have a mass, they cannot travel at the speed of light, but if their mass is small, they can get close.
(a) Suppose a neutrino with a \(7-e V / c^{2}\) mass has a kinetic energy of \(700 \mathrm{keV}\). Find the relativistic quantity \(\gamma=\frac{1}{\sqrt{1-v^{2} / c^{2}}}\) for it.
(b) If the neutrino leaves the \(1987A\) supernova at the same time as a photon and both travel to Earth, how much sooner does the photon arrive? This is not a large time difference, given that it is impossible to know which neutrino left with which photon and the poor efficiency of the neutrino detectors. Thus, the fact that neutrinos were observed within hours of the brightening of the supernova only places an upper limit on the neutrino's mass. (Hint: You may need to use a series expansion to find \(v\) for the neutrino, since its \(\gamma\) is so large.)
Equation Transcription:
Text Transcription:
1987A
120,000
7-eV/c^2
700keV
gamma=1/1-v^2 / c^2
v
gamma
Questions & Answers
QUESTION:
Integrated Concepts
In supernovas, neutrinos are produced in huge amounts. They were detected from the \(1987A\) supernova in the Magellanic Cloud, which is about \(120,000\) light years away from the Earth (relatively close to our Milky Way galaxy). If neutrinos have a mass, they cannot travel at the speed of light, but if their mass is small, they can get close.
(a) Suppose a neutrino with a \(7-e V / c^{2}\) mass has a kinetic energy of \(700 \mathrm{keV}\). Find the relativistic quantity \(\gamma=\frac{1}{\sqrt{1-v^{2} / c^{2}}}\) for it.
(b) If the neutrino leaves the \(1987A\) supernova at the same time as a photon and both travel to Earth, how much sooner does the photon arrive? This is not a large time difference, given that it is impossible to know which neutrino left with which photon and the poor efficiency of the neutrino detectors. Thus, the fact that neutrinos were observed within hours of the brightening of the supernova only places an upper limit on the neutrino's mass. (Hint: You may need to use a series expansion to find \(v\) for the neutrino, since its \(\gamma\) is so large.)
Equation Transcription:
Text Transcription:
1987A
120,000
7-eV/c^2
700keV
gamma=1/1-v^2 / c^2
v
gamma
ANSWER: