Lesson 5.4 - Mass and Energy
VIDEO LESSON (21:52 min)
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Question: So where does this additional mass come from?
SOLUTION:
To conserve mass-energy, two 511keV gamma rays are produced travelling in opposite directions to conserve momentum.
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SO FAR
Effect of Relativistic speed on a time interval:
AND ALSO!
Effect of Relativistic speed on a Mass:
As an object's speed increases, its mass when viewed from a moving frame of reference increases by the factor of \( \gamma \)
RECALL:
Law of Convervation of Mass:Question: So where does this additional mass come from?
EXAMPLE PROBLEM #1
A neutron has a measured mass of \(1.71 \times 10^{-27} kg\). Determine its speed.SOLUTION:
MASS/ENERGY EQUIVALENCE
Due to the famous equation \(E=mc^2\) we have a precise way of expressing the relationship between rest mass and energy. This is why most subatomic particle masses are listed in \(MeV/c^2\) instead of \(kg\).
ELECTRON POSITRON ANNIHILATION
After a \( \beta ^+ \) event a positron is produced. After a very short time it interacts with an electron and they annihilate each other (matter-antimatter annihilation).To conserve mass-energy, two 511keV gamma rays are produced travelling in opposite directions to conserve momentum.
EXAMPLE PROBLEM #2
The Large Hadron Collider accelerates protons to 6.8 TeV. How fast are they travelling?
SOLUTION:
最后修改: 2025年06月28日 星期六 19:36