College Physics
OER 2016 Edition
ISBN: 9781947172173
Author: OpenStax
Publisher: OpenStax College
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Textbook Question
Chapter 33, Problem 21PE
(a) Verify from its quark composition that the particle could be an excited state of the proton.
(b) There is a spread of about 100 MeV in the decay energy of the interpreted as uncertainty due to its short lifetime. What is its approximate lifetime?
(c) Does its decay proceed via the strong or weak force?
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(a) Use the Heisenberg uncertainty principle to calculate the uncertainty in energy for a corresponding time interval of 10-43 s . (b) Compare this energy with the 1019 GeV unification-of-forces energy and discuss why they are similar.
The range of the nuclear strong force is believed to be about 1.2 x 10-15 m. An early theory of nuclear physics proposed that the particle that “mediates” the strong force (similar to the photon mediating the electromagnetic force) is the pion. Assume that the pion moves at the speed of light in the nucleus, and calculate the time ∆t it takes to travel between nucleons. Assume that the distance between nucleons is also about 1.2 x 10-15 m. Use this time ∆t to calculate the energy ∆E for which energy conservation is violated during the time ∆t. This ∆E has been used to estimate the mass of the pion. What value do you determine for the mass? Compare this value with the measured value of 135 MeV/c2 for the neutral pion.
34. (a) A charged pi meson has a rest energy of 140 MeV and a lifetime of 26 ns. Find the
energy uncertainty of the pi meson, expressed in MeV and also as a fraction of its rest
energy. (b) Repeat for the uncharged pi meson with a rest energy of 135 MeV and a lifetime
of 8.3 x 10" s. (c) Repeat for the rho meson with a rest energy of 765 MeV and a lifetime
of 4.4 x 10 s.
Chapter 33 Solutions
College Physics
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