Which Isotope Has Half the Nuclear Radius of Dysprosium-160?

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The discussion revolves around identifying an isotope with half the nuclear radius of dysprosium-160, which has an atomic number of 66. The correct answer is Neon (Ne), with an atomic mass of 20 and atomic number 10. The user initially misapplied the formula for nuclear radius by confusing atomic mass with atomic number. After clarification, the user acknowledged the mistake and sought further assistance. The conversation highlights the importance of correctly interpreting variables in nuclear physics equations.
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Homework Statement



A particular isotope of dysprosium has atomic number 66 and atomic mass 159.952202 u. Identify the nucleus with a radius that is one half that of this isotope.

A. Ne (A=20, Z=10) <<<Correct Answer
B. O (A=16, Z=8)
C. Mn (A=50, Z=25)
D. Ni (A=60, Z=28)

Homework Equations


The only relevant equation I can think of is the equation of a nucleus's radius in terms of its atomic number:

r = (1.2X10^-15)(A^[1/3])

The Attempt at a Solution



My attempt has gone as follows:

1. Find the radius of the given dysprosium isotope by plugging it's atomic number into the given formula:

r1 = (1.2X10^-15)(66^[1/3])
r1 = 4.849488E-15 m

2. Now I find the radius of the unknown nucleus:

r2 = (1/2)r1
r2 = 2.424744E-15 m

3. Finally, by plugging the r2 value into the original equation, I should be able to solve for the atomic number of the unknown nucleus:

r2 = 2.424744E-15 m = (1.2X10^-15)(A2^[1/3])

A2 = 8.25

This is obviously not correct, it seems I'm missing a step; possibly one involving the atomic mass, since it is mentioned in the problem. Any help would be appreciated.

Thanks!
 
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r1 = (1.2X10^-15)(66^[1/3])
This is wrong. A is atomic mass, not atomic number.
 
rl.bhat said:
r1 = (1.2X10^-15)(66^[1/3])
This is wrong. A is atomic mass, not atomic number.

Ahhhhhh, of course. Thanks again rl.bhat!
 

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