Q44 Q4. A. Use the graph as shown below. Determine the half-life of Plutonium-239.Undecayed particles (%)100-908040-30-20-10-08Carbon-1416T24Plutonium-23932This pa4048 56Time (thousand years)64=IB. Evaluate using formula and solution, the remaining amount of Plutonium-239 after three half-lives, and Carbon-14 after four half-lives.

Given At , t = 0 Amount of Plutonium-239 & Carbon -14 are 100℅ . (A) from given graph…

Q4. A. Use the graph as shown below. Determine the half-life of Plutonium-239. Undecayed particles (%) 100- 90 80 40- 30- 20- 10- 0 98 8 Carbon-14 16 24 Plutonium-239 32 40 This pa 48 56 64 Time (thousand years) 1=

Q4. A. Use the graph as shown below. Determine the half-life of Plutonium-239. Undecayed particles (%) 100- 90 80 40- 30- 20- 10- 0 98 8 Carbon-14 16 24 Plutonium-239 32 40 This pa 48 56 64 Time (thousand years) 1=

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter31: Radioactivity And Nuclear Physics

Section: Chapter Questions

Problem 18CQ: In a 3109 yearold rock that originally contained some 238U, which has a halflife of 4.5109 years, we...

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Concept explainers

Nuclear Fission

Nuclear fission is a type of nuclear reaction in which heavier nuclei split into lighter nuclei by releasing a large quantity of energy. The elements like uranium-235 and plutonium-239 isotope undergo nuclear fission releasing energy. When nuclei undergo fission, some quantity of mass is lost. The lost mass is converted to nuclear energy. Nuclear fission reaction is used in nuclear power plants and atomic bombs. In nuclear power plants, nuclear reactors are used to generate electricity.

Endothermic Nuclear Reaction

A nuclear reaction can be described as a process where two atoms, or two nuclei or nucleus and subatomic particles such as a proton, neutron interact together, and a large amount of energy is produced and new elements are also produced.

Question

Q44

Q4. A. Use the graph as shown below. Determine the half-life of Plutonium-239.
Undecayed particles (%)
100-
90
80
40-
30-
20-
10-
0
8
Carbon-14
16
T
24
Plutonium-239
32
This pa
40
48 56
Time (thousand years)
64
=I
B. Evaluate using formula and solution, the remaining amount of Plutonium-239 after three half-lives, and Carbon-14 after four half-lives.

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