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Chapter 42: Q 8 Conceptual Question (page 1235)

Apple A in FIGURE Q42.8 is strongly irradiated by nuclear radiation for 1 hour. Apple B is not irradiated. Afterward, in what ways
are apples A and B different?

Short Answer

Expert verified

Therefore, apple A is not radioactive.

Step by step solution

01

Given information

Apple A in FIGURE Q42.8 is strongly irradiated by nuclear radiation for 1 hour. Apple B is not irradiated.

02

Explanation

Nuclear radiation would ionise some of the substance in apple A, breaking molecular bonds.

03

Explanation

This could cause chemical reactions in apple B that would not occur otherwise. Apple A would not mutate into a radioactive substance.

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Most popular questions from this chapter

Consider a nucleus with mass number $A$ . Its mass, within $1 %$ , is $A$ atomic mass units.

The fact that $A$ cancels means that all nuclei have this density. It is a staggeringly large density, roughly $10^{14}$ times larger than the density of familiar liquids and solids.

One early objection to Rutherford鈥檚 model of a nuclear atom was that matter simply couldn鈥檛 have a density this high. Although we have no direct experience with such matter, nuclear matter really is this dense.

Calculate (in $M e V$ ) the binding energy per nucleon for $O^{14}$ and $O^{16}$ . Which is more tightly bound?

The plutonium isotope 239 Pu has a half-life of 24,000 years and decays by the emission of a 5.2 MeV alpha particle. Plutonium is not especially dangerous if handled because the activity is low and the alpha radiation doesn鈥檛 penetrate the skin. However, there are serious health concerns if even the tiniest particles of plutonium are inhaled and lodge deep in the lungs. This could happen following any kind of fire or explosion that disperses plutonium as dust. Let鈥檚 determine the level of danger. a. Soot particles are roughly 1 mm in diameter, and it is known that these particles can go deep into the lungs. How many atoms are in a 1.0@mm@diameter particle of 239 Pu? The density of plutonium is 19,800 kg/m3 . b. What is the activity, in Bq, of a 1.0@mm@diameter particle? c. The activity of the particle is very small, but the penetrating power of alpha particles is also very small. The alpha particles are all stopped, and each deposits its energy in a 50@mm@diameter sphere around the particle. What is the dose, in mSv/year, to this small sphere of tissue in the lungs? Assume that the tissue density is that of water. d. Is this exposure likely to be significant? How does it compare to the natural background of radiation exposure?

We鈥檝e noted that fewer than $10 %$ of the known nuclei are stable (i.e., not radioactive). Because nuclei are characterized by two independent numbers, $N$ and $Z$ , it is useful to show the known nuclei on a plot of neutron number $N$ versus proton number $Z$ .

An unstable nucleus undergoes alpha decay with the release

of 5.52 MeV of energy. The combined mass of the parent and

daughter nuclei is 452 u. What was the parent nucleus?

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