ASAP - 6¯° g is kept over a largeA particle of mass 5 x 10horizontal sheet of charge of density 4-0 × 10 ¯° C m(figure 30-W5). What charge should be given to thisO particle so that if released, it does not fall down ? Howmany electrons are to be removed to give this charge ?How much mass is decreased due to the removal of theseelectrons ?- 6-2+

Answered: Image /qna-images/answer/c26405fe-2fe3-4100-97df-279287a89306.jpg

- 6 A particle of mass 5 x 10 horizontal sheet of charge of density 4:0 x 10 ¯° C m (figure 30-W5). What charge should be given to this particle so that if released, it does not fall down ? How many electrons are to be removed to give this charge ? How much mass is decreased due to the removal of these electrons ? g is kept over a large -2

- 6 A particle of mass 5 x 10 horizontal sheet of charge of density 4:0 x 10 ¯° C m (figure 30-W5). What charge should be given to this particle so that if released, it does not fall down ? How many electrons are to be removed to give this charge ? How much mass is decreased due to the removal of these electrons ? g is kept over a large -2

University Physics Volume 3

17th Edition

ISBN:9781938168185

Author:William Moebs, Jeff Sanny

Publisher:William Moebs, Jeff Sanny

Chapter11: Particle Physics And Cosmology

Section: Chapter Questions

Problem 79CP: The intensity of cosmic ray radiation decreases rapidly with increasing energy, but there are...

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Suppose you are designing a proton decay experiment and you can detect 50 percent of the proton decays in a tank of water. (a) How many kilograms of water would you need to see one decay per month, assuming a lifetime of 1031 y? (b) How many cubic meters of water is this? (c) If the actual lifetime is 1033 y, how long would you have to wait on an average to see a single proton decay?
The peak intensity of the CMBR occurs at a wavelength of 1.1 mm. (a) What is the energy in eV of a 1.1-ram photon? (b) There are approximately 109 photons for each massive particle in deep space. Calculate the energy of 10^ such photons, (c) If the average massive particle in space has a mass half that of a proton, what energy would be created by converting its mass to energy? (d) Does this imply that space is "matter dominated”? Explain briefly.
Check Your Understanding What is if v=0.650c?
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We ratio of the strong to the weak force and the ratio of the strong force to the electromagnetic force become 1 under circumstances where they are unified. What are the ratios of the strong force to wage two forces under normal circumstances?
A positron is an antimatter version of the electron, having exactly the same mass. When a positron and an electron meet, they annihilate, converting all of their mass into energy. (a) Find the energy released, assuming negligible kinetic energy before the annihilation. (b) If this energy is given to a proton in the form of kinetic energy, what is its velocity? (c) If this energy is given to another electron in the form of kinetic energy, what is its velocity?
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Check Your Understanding What is the strangeness number of a muon?
The intensity of cosmic ray radiation decreases rapidly with increasing energy, but there are occasionally extremely energetic cosmic rays that create a shower of radiation from all the particles they create by striking a nucleus in the atmosphere. Suppose a cosmic ray particle having an energy of 1010 GeV converts its energy into panicles with masses averaging 200MeV/c2. (a) How many particles are created? (b) If the particles rain down on a 1.00-km2 area, how many particles are there per square meter?
(a) The lifetime of a highly unstable nucleus is 10-20. What is the smallest uncertainty in its decay energy? (b) Compare this with the rest energy of an electron.
The mass of a theoretical particle that may be associated with the uni?cation of the electroweak and strong forces is (a) How many proton masses is this? (b) How many electron masses is this? (This indicates how extremely relativistic the accelerator would have to be in order to make the particle, and how large the relativistic quantity (would have to be.)
(a) What is the kinetic energy in MeV of a ray that is traveling at 0.998c? This gives some idea of how energetic a ray must be to travel at nearly the same speed as a ray. (b) What is the velocity of the ray relative to the ray?